diff --git a/docs/seven-wonders.pdf b/docs/seven-wonders.pdf index c5a6569..0cc6dc4 100644 Binary files a/docs/seven-wonders.pdf and b/docs/seven-wonders.pdf differ diff --git a/images/magnetic-flux_lines.jpg b/images/magnetic-flux_lines.jpg new file mode 100644 index 0000000..436a552 Binary files /dev/null and b/images/magnetic-flux_lines.jpg differ diff --git a/portamanabib.bib b/portamanabib.bib index 9d1f250..51c2393 100644 --- a/portamanabib.bib +++ b/portamanabib.bib @@ -6,7 +6,7 @@ %% Home page: http://magnaspesmeretrix.org %% Email (remove ZZ): pglZZ[at]portamana.org %% Created: 2000-08-23T16:53:30+0200 -%% Last-Updated: 2024-09-25T11:44:50+0200 +%% Last-Updated: 2024-10-30T22:11:22+0100 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % NB: This database contains also items whose content's validity I @@ -358,6 +358,7 @@ @String{cr @String{cra = {Color Res.\ Appl.}} @String{cras = {C. R. Acad.\ Sci.}} @String{crasa = {C. R. Acad.\ Sci.\ A}} +@String{crasb = {C. R. Acad.\ Sci.\ B}} @String{crasi = {C. R. Acad.\ Sci.\ I}} @String{crasiib = {C. R. Acad.\ Sci.\ IIb}} @String{crp = {\langnohyph{C. R. Physique}}} @@ -1342,7 +1343,7 @@ @Article{aapt1950 number = {1, 2}, pages = {1--25, 88}, note = {See also \citebi{aapt1950b}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{aapt1950b, @@ -1354,7 +1355,7 @@ @Article{aapt1950b number = {2}, pages = {69--88}, note = {See also \citebi{aapt1950}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Misc{aaronson2003, @@ -1552,7 +1553,8 @@ @Article{abraham1909 year = {1909}, volume = {28}, pages = {1--28}, -keywords = {On the electrodynamics of moving bodies, aether relations in material media, electromagnetism, continuum mechanics} +note = {\doi{10.1007/BF03018208}}, +keywords = {On the electrodynamics of moving bodies, aether relations in material media, electromagnetics, continuum mechanics} } @Article{abraham1909b, @@ -1563,7 +1565,7 @@ @Article{abraham1909b volume = {10}, number = {21}, pages = {737--741}, -keywords = {On electromagnetic mechanics, energy-momentum-stress tensor, electromagnetism, relativity} +keywords = {On electromagnetic mechanics, energy-momentum-stress tensor, electromagnetics, relativity} } @Book{abrahametal1967_r1987, @@ -2546,7 +2548,7 @@ @Article{aharonovetal2000 volume = {61}, number = {5}, pages = {052108}, -keywords = {modes, electromagnetism} +keywords = {modes, electromagnetics} } @Book{aharonovetal2005, @@ -4138,7 +4140,7 @@ @Article{anderson2001b volume = {32}, number = {3}, pages = {499--500}, -note = {See \citebi{anderson2001,cartwright2001} and also \citebi{adler2001_r2003}}, +note = {See \citebi{anderson2001,cartwright2001} and also \citebi{adler2003}}, keywords = {decoherence, quantum mechanics, measurement problem} } @@ -4290,7 +4292,7 @@ @Article{andoetal1975 volume = {39}, number = {2}, pages = {279--288}, -keywords = {quantum Hall effect, electromagnetism} +keywords = {quantum Hall effect, electromagnetics} } @Article{andoetal2003, @@ -4586,7 +4588,7 @@ @Article{anghinonietal2022 volume = {443}, pages = {169004}, note = {\doi{10.1016/j.aop.2022.169004}}, -keywords = {Poynting vector, Abraham controversy} +keywords = {Poynting vector, Abraham-Minkowski} } @Book{anile1989_r2005, @@ -4864,7 +4866,7 @@ @Article{antocietal1997 number = {7}, pages = {991--1001}, note = {\arxiveprint{gr-qc/9704055}}, -keywords = {electromagnetism, energy-momentum-stress tensor} +keywords = {electromagnetics, energy-momentum-stress tensor} } @Article{antocietal1998, @@ -4900,7 +4902,7 @@ @Article{antocietal2000 number = {1}, pages = {77--88}, note = {\arxiveprint{9912010}}, -keywords = {electromagnetism, energy-momentum-stress tensor} +keywords = {electromagnetics, energy-momentum-stress tensor} } @Article{antocietal2000b, @@ -5492,7 +5494,7 @@ @Article{armstrongetal1962 volume = {127}, number = {6}, pages = {1918--1939}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Misc{arnaudetal2002, @@ -7169,7 +7171,7 @@ @Article{backhausetal1986 number = {3}, pages = {279--280}, note = {\doi{10.1119/1.14646}}, -keywords = {electromagnetism, Poynting vector} +keywords = {electromagnetics, Poynting vector} } @Article{bacon2005, @@ -8460,7 +8462,7 @@ @Book{bambergetal1990_r1992 year = {1992}, address = {Cambridge}, note = {First publ.\ 1990}, -keywords = {differential forms, electromagnetism}, +keywords = {differential forms, electromagnetics}, origdate = {1990} } @@ -8943,7 +8945,7 @@ @Article{bargmannetal1959 volume = {2}, number = {10}, pages = {435--436}, -keywords = {electromagnetism, spin} +keywords = {electromagnetics, spin} } @Article{barhillel1980, @@ -9005,7 +9007,7 @@ @Article{barlow1912 volume = {87}, number = {592}, pages = {1--16}, -keywords = {electromagnetism, energy-momentum-stress tensor} +keywords = {electromagnetics, energy-momentum-stress tensor} } @Article{barlow1972, @@ -9198,7 +9200,7 @@ @Article{barnett2010 number = {7}, pages = {070401}, note = {\doi{10.1103/PhysRevLett.104.070401}}, -keywords = {electromagnetism, energy momentum stress} +keywords = {electromagnetics, energy momentum stress} } @Article{barnette1973, @@ -9670,7 +9672,7 @@ @Article{barut1974 volume = {10}, number = {10}, pages = {3335--3336}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Article{barut1986, @@ -9681,7 +9683,7 @@ @Article{barut1986 volume = {34}, number = {4}, pages = {3502--3503}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Article{barutetal1968, @@ -9747,7 +9749,7 @@ @Article{barutetal1987 volume = {36}, number = {6}, pages = {2550--2556}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Article{barutetal1988, @@ -10032,7 +10034,7 @@ @Article{bateman1909 number = {1050}, pages = {223--264}, note = {\doi{10.1112/plms/s2-8.1.223}}, -keywords = {differential forms, metric-free electromagnetism} +keywords = {differential forms, metric-free electromagnetics} } @Article{bateman1910, @@ -10044,7 +10046,7 @@ @Article{bateman1910 number = {118}, pages = {623--628}, note = {\doi{10.1080/14786441008636944}}, -keywords = {differential forms, metric-free electromagnetism} +keywords = {differential forms, metric-free electromagnetics} } @Article{bateman1910b, @@ -10056,7 +10058,7 @@ @Article{bateman1910b number = {1098}, pages = {7--14}, note = {\doi{10.1112/plms/s2-10.1.7}}, -keywords = {differential forms, metric-free electromagnetism} +keywords = {differential forms, metric-free electromagnetics} } @Article{bateman1911, @@ -10068,7 +10070,7 @@ @Article{bateman1911 number = {1104}, pages = {96--115}, note = {\doi{10.1112/plms/s2-10.1.96}}, -keywords = {differential forms, metric-free electromagnetism} +keywords = {differential forms, metric-free electromagnetics} } @Article{bateman1912c, @@ -10088,7 +10090,7 @@ @Book{bateman1915 year = {1915}, address = {Cambridge}, note = {\url{http://archive.org/details/mathanaselectric00baterich}}, -keywords = {differential forms, metric-free electromagnetism} +keywords = {differential forms, metric-free electromagnetics} } @Article{bateman1915b, @@ -10100,7 +10102,7 @@ @Article{bateman1915b number = {6}, pages = {299--309}, note = {\doi{10.1090/S0002-9904-1915-02631-5}}, -keywords = {differential forms, metric-free electromagnetism} +keywords = {differential forms, metric-free electromagnetics} } @Article{bateman1915c, @@ -10112,7 +10114,7 @@ @Article{bateman1915c number = {2}, pages = {192--194}, note = {\doi{10.2307/2370423}}, -keywords = {differential forms, metric-free electromagnetism} +keywords = {differential forms, metric-free electromagnetics} } @Article{bateman1916, @@ -10123,7 +10125,7 @@ @Article{bateman1916 volume = {45}, pages = {97--115}, note = {\url{http://archive.org/details/messengerofmathe45cambuoft}}, -keywords = {differential forms, metric-free electromagnetism} +keywords = {differential forms, metric-free electromagnetics} } @Article{bateman1917, @@ -10134,7 +10136,7 @@ @Article{bateman1917 volume = {46}, pages = {136--145}, note = {\url{http://archive.org/details/messengerofmathe46cambuoft}}, -keywords = {differential forms, metric-free electromagnetism} +keywords = {differential forms, metric-free electromagnetics} } @Article{bateman1918, @@ -10146,7 +10148,7 @@ @Article{bateman1918 number = {6}, pages = {459--481}, note = {\doi{10.1103/PhysRev.12.459}}, -keywords = {differential forms, metric-free electromagnetism} +keywords = {differential forms, metric-free electromagnetics} } @Article{bateman1918b, @@ -10158,7 +10160,7 @@ @Article{bateman1918b number = {4}, pages = {586--596}, note = {\doi{10.5840/monist191828436}}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, mynote = {\url{https://www.jstor.org/stable/27900708}} } @@ -10516,7 +10518,7 @@ @Article{baxteretal2010 number = {10}, pages = {830--842}, note = {\doi{10.1080/09500340.2010.487948}}, -keywords = {electromagnetism, Poynting vector, Abraham controversy} +keywords = {electromagnetics, Poynting vector, Abraham-Minkowski} } @Article{bayeretal1992, @@ -11052,7 +11054,7 @@ @Article{belinfante1940 number = {5}, pages = {449--474}, note = {\doi{10.1016/S0031-8914(40)90091-X}}, -keywords = {general relativity, energy-momentum-stress tensor, electromagnetism, spin} +keywords = {general relativity, energy-momentum-stress tensor, electromagnetics, spin} } @Article{belinfante1946, @@ -13293,7 +13295,7 @@ @Article{bertieetal1994 number = {1--2}, pages = {157--176}, note = {\doi{10.1016/0022-2860(94)08237-5}}, -keywords = {refraction index, absorption index, electromagnetism, complex numbers} +keywords = {refraction index, absorption index, electromagnetics, complex numbers} } @Article{bertieetal1996, @@ -13305,7 +13307,7 @@ @Article{bertieetal1996 number = {8}, pages = {1047--1057}, note = {\doi{10.1366/0003702963905385}}, -keywords = {refraction index, absorption index, electromagnetism, complex numbers} +keywords = {refraction index, absorption index, electromagnetics, complex numbers} } @Article{bertietal2008, @@ -13530,7 +13532,7 @@ @Article{beth1936 number = {2}, pages = {115--125}, note = {\doi{10.1103/PhysRev.50.115}}, -keywords = {electromagnetism, energy-momentum-stress tensor} +keywords = {electromagnetics, energy-momentum-stress tensor} } @Article{bethe1935, @@ -13855,7 +13857,7 @@ @Article{bialynickibirulaetal2013 number = {5, 15}, pages = {053001, 159501}, note = {\doi{10.1088/1751-8113/46/5/053001}, \doi{10.1088/1751-8113/46/15/159501}}, -keywords = {complex numbers, electromagnetism, differential forms} +keywords = {complex numbers, electromagnetics, differential forms} } @Book{biancalani2014, @@ -15153,7 +15155,7 @@ @Article{bobbioetal1991 number = {9}, pages = {1189--1196}, note = {\doi{10.1007/BF02457297}}, -keywords = {electromagnetism, continuum mechanics, Abraham controversy} +keywords = {electromagnetics, continuum mechanics, Abraham-Minkowski} } @Article{bobbioetal1993, @@ -15165,7 +15167,7 @@ @Article{bobbioetal1993 number = {5}, pages = {723--733}, note = {\doi{10.1007/BF02482438}}, -keywords = {electromagnetism, continuum mechanics, Abraham controversy} +keywords = {electromagnetics, continuum mechanics, Abraham-Minkowski} } @Article{bobbioetal1995, @@ -15177,7 +15179,7 @@ @Article{bobbioetal1995 number = {6}, pages = {627--642}, note = {\doi{10.1007/BF02484365}}, -keywords = {electromagnetism, continuum mechanics, Abraham controversy} +keywords = {electromagnetics, continuum mechanics, Abraham-Minkowski} } @Book{bobenkoetal2008, @@ -16433,7 +16435,7 @@ @Article{bornetal1934b number = {852}, pages = {425--451}, note = {\doi{10.1098/rspa.1934.0059}}, -keywords = {matter, electromagnetism, mass, relativity} +keywords = {matter, electromagnetics, mass, relativity} } @Article{bornetal1935, @@ -16722,7 +16724,7 @@ @Article{bossavit1996 number = {2, 3}, pages = {7, 14}, note = {See also \citebi{bossavit1997}}, -keywords = {Ohm's law, electromagnetism} +keywords = {Ohm's law, electromagnetics} } @Article{bossavit1997, @@ -16734,7 +16736,7 @@ @Article{bossavit1997 number = {1}, pages = {17--18}, note = {See \citebi{bossavit1996}}, -keywords = {Ohm's law, electromagnetism} +keywords = {Ohm's law, electromagnetics} } @Book{bossavit1998_r2004, @@ -16833,7 +16835,7 @@ @Article{bossavit2002_r2005 volume = {XIII}, pages = {105--197}, note = {\doi{10.1016/S1570-8659(04)13002-0}. First publ.\ 2002}, -keywords = {twisted differential forms, discrete exterior calculus, electromagnetism}, +keywords = {twisted differential forms, discrete exterior calculus, electromagnetics}, origdate = {2002} } @@ -16883,7 +16885,7 @@ @Misc{bossavit2007 title = {Maxwell equations in {Hamiltonian} form}, year = {2007}, note = {\url{http://butler.cc.tut.fi/~bossavit/Junk.html}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{bossavit2008, @@ -16895,7 +16897,7 @@ @Article{bossavit2008 number = {1}, pages = {9--16}, note = {\doi{10.1108/03321640810836582}}, -keywords = {differential forms, electromagnetism} +keywords = {differential forms, electromagnetics} } @Article{bossavit2010, @@ -16907,7 +16909,7 @@ @Article{bossavit2010 number = {8}, pages = {1567--1577}, note = {\doi{10.1016/j.matcom.2008.11.005}}, -keywords = {twisted forms, discrete exterior calculus, electromagnetism} +keywords = {twisted forms, discrete exterior calculus, electromagnetics} } @Article{bossavit2011, @@ -16919,7 +16921,7 @@ @Article{bossavit2011 number = {6}, pages = {1804--1814}, note = {\doi{10.1108/03321641111168110}}, -keywords = {force, electromagnetism, stress, continuum mechanics} +keywords = {force, electromagnetics, stress, continuum mechanics} } @Article{bossavit2012, @@ -16931,7 +16933,7 @@ @Article{bossavit2012 number = {1}, pages = {97--102}, note = {\doi{10.7716/aem.v1i1.66}}, -keywords = {twisted forms, discrete exterior calculus, electromagnetism, relativity} +keywords = {twisted forms, discrete exterior calculus, electromagnetics, relativity} } @Article{bossavit2014, @@ -16943,7 +16945,7 @@ @Article{bossavit2014 number = {2}, pages = {7005504}, note = {\doi{10.1109/TMAG.2013.2277558}}, -keywords = {electromagnetism, stress, differential forms} +keywords = {electromagnetics, stress, differential forms} } @Article{bossavit2016, @@ -16955,7 +16957,7 @@ @Article{bossavit2016 number = {2}, pages = {e2214}, note = {\doi{10.1002/jnm.2214}, \url{https://www.researchgate.net/publication/311496657_A_note_on_the_uniqueness_of_the_Poynting_vector_and_of_the_Maxwell_tensor}}, -keywords = {twisted forms, discrete exterior calculus, electromagnetism} +keywords = {twisted forms, discrete exterior calculus, electromagnetics} } @Article{bossavit2016b, @@ -16967,7 +16969,7 @@ @Article{bossavit2016b number = {3}, pages = {7003504}, note = {\doi{10.1109/TMAG.2015.2481939}}, -keywords = {stress tensor, electromagnetism, differential forms} +keywords = {stress tensor, electromagnetics, differential forms} } @Article{bossavit2019, @@ -16979,7 +16981,7 @@ @Article{bossavit2019 number = {6}, pages = {1589--1600}, note = {\doi{10.3934/dcdss.2019108}}, -keywords = {electromagnetism, stress, differential forms} +keywords = {electromagnetics, stress, differential forms} } @Article{bossavitetal2014, @@ -17730,7 +17732,7 @@ @Article{boyer2000 volume = {30}, number = {6}, pages = {893--905}, -keywords = {Electromagnetism, quantum theory, quantum field theory} +keywords = {electromagnetics, quantum theory, quantum field theory} } @Article{boyer2000b, @@ -17741,7 +17743,7 @@ @Article{boyer2000b volume = {30}, number = {6}, pages = {907--932}, -keywords = {Electromagnetism, quantum theory, quantum field theory} +keywords = {electromagnetics, quantum theory, quantum field theory} } @Misc{boyer2004, @@ -17772,6 +17774,18 @@ @Misc{boyer2005c note = {\arxiveprint{physics/0506181}} } +@Article{boyer2008, +author = {Timothy H. Boyer}, +title = {Concerning ``hidden momentum''}, +journal = ajp, +year = {2008}, +volume = {76}, +number = {2}, +pages = {190--191}, +note = {\doi{10.1119/1.2815366}}, +keywords = {electromagnetics, energy-momentum-stress} +} + @Misc{boyer2014, author = {Timothy H. Boyer}, title = {Self-Inductance and the Mass of Current Carriers in a Circuit}, @@ -17797,7 +17811,7 @@ @Article{boyer2018 volume = {86}, number = {7}, pages = {495--509}, -keywords = {quantum theory, electromagnetism} +keywords = {quantum theory, electromagnetics} } @Article{boyer2019, @@ -17808,7 +17822,7 @@ @Article{boyer2019 volume = {40}, number = {2}, pages = {025101}, -keywords = {quantum theory, electromagnetism} +keywords = {quantum theory, electromagnetics} } @Article{boykin2000, @@ -17926,7 +17940,7 @@ @Article{bradshawetal2010 volume = {283}, number = {5}, pages = {650--656}, -keywords = {electromagnetism, force} +keywords = {electromagnetics, force} } @Article{braganetoetal2020, @@ -17961,7 +17975,7 @@ @Article{bragg1892 volume = {34}, number = {206}, pages = {18--35}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{bragg1965, @@ -18359,7 +18373,8 @@ @Article{bressan1966b volume = {15}, number = {2}, pages = {133--168}, -keywords = {on Poynting's theorem and on the energy tensor of the electromagnetic field, electromagnetism} +note = {\doi{10.1007/BF02849432}}, +keywords = {on Poynting's theorem and on the energy tensor of the electromagnetic field, electromagnetics} } @Article{bressan1966c, @@ -18538,7 +18553,7 @@ @Book{bressoud1991_r1996 address = {New York}, edition = {corr.\ 3rd pr.}, note = {First publ.\ 1991}, -keywords = {twisted differential forms, electromagnetism, differential geometry}, +keywords = {twisted differential forms, electromagnetics, differential geometry}, origdate = {1991} } @@ -18742,7 +18757,7 @@ @Article{brevik1970 number = {11}, pages = {1--52}, note = {\url{http://publ.royalacademy.dk/books/177/1163}. See also \citebi{brevik1970b}}, -keywords = {electromagnetism, electromagnetic force, continuum mechanics, Abraham controversy} +keywords = {electromagnetics, electromagnetic force, continuum mechanics, Abraham-Minkowski} } @Article{brevik1970b, @@ -18754,7 +18769,7 @@ @Article{brevik1970b number = {13}, pages = {1--79}, note = {\url{http://publ.royalacademy.dk/books/177/1165}. See also \citebi{brevik1970}}, -keywords = {electromagnetism, electromagnetic force, continuum mechanics, Abraham controversy} +keywords = {electromagnetics, electromagnetic force, continuum mechanics, Abraham-Minkowski} } @Article{brevik1970c, @@ -18766,7 +18781,7 @@ @Article{brevik1970c number = {2}, pages = {50--51}, note = {\doi{10.1016/0375-9601(70)91020-0}}, -keywords = {electromagnetism, continuum mechanics, Abraham controversy} +keywords = {electromagnetics, continuum mechanics, Abraham-Minkowski} } @Article{brevik1972, @@ -18777,7 +18792,7 @@ @Article{brevik1972 volume = {40}, number = {4}, pages = {550--552}, -keywords = {differential forms, twisted forms, electromagnetism} +keywords = {differential forms, twisted forms, electromagnetics} } @Article{brevik1979, @@ -18789,7 +18804,7 @@ @Article{brevik1979 number = {3}, pages = {133--201}, note = {\doi{10.1016/0370-1573(79)90074-7}}, -keywords = {electromagnetism, continuum mechanics, Abraham controversy} +keywords = {electromagnetics, continuum mechanics, Abraham-Minkowski} } @Article{brevik2017, @@ -18800,7 +18815,7 @@ @Article{brevik2017 volume = {377}, pages = {10--21}, note = {\doi{10.1016/j.aop.2017.01.009}}, -keywords = {electromagnetism, Abraham controversy} +keywords = {electromagnetics, Abraham-Minkowski} } @Article{brevik2018, @@ -18812,7 +18827,7 @@ @Article{brevik2018 number = {10n11}, pages = {1830006}, note = {\doi{10.1142/S0217732318300069}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{breviketal1970, @@ -18824,7 +18839,7 @@ @Article{breviketal1970 number = {1}, pages = {1--37}, note = {\url{http://publ.royalacademy.dk/books/176/1138}}, -keywords = {quantum theory, electromagnetism, continuum mechanics} +keywords = {quantum theory, electromagnetics, continuum mechanics} } @Article{breviketal1999, @@ -18835,7 +18850,7 @@ @Article{breviketal1999 volume = {16}, number = {6}, pages = {976--985}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Article{brewer2017, @@ -19682,7 +19697,7 @@ @Article{brodinetal2008 volume = {101}, pages = {245002}, note = {\doi{10.1103/PhysRevLett.101.245002}}, -keywords = {polar fluids, electromagnetism, quantum theory, kinetic theory} +keywords = {polar fluids, electromagnetics, quantum theory, kinetic theory} } @Misc{brodskiyetal2005, @@ -19942,7 +19957,7 @@ @Article{brown1951 number = {5, 6}, pages = {290--304, 333--350}, note = {\doi{10.1119/1.1932805}, \doi{10.1119/1.1932823}}, -keywords = {energy density, electromagnetism} +keywords = {energy density, electromagnetics} } @Article{brown1957, @@ -21226,7 +21241,7 @@ @Article{bulloughetal1974 number = {13}, pages = {1647--1663}, note = {See also \citebi{saundersetal1975}}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Article{bulnescuetaraetal2014, @@ -21686,7 +21701,7 @@ @Book{burke1980b year = {1980}, series = {A series of books in astronomy}, address = {Mill Valley, USA}, -keywords = {twisted differential forms, electromagnetism, differential geometry}, +keywords = {twisted differential forms, electromagnetics, differential geometry}, mynote = {\enquote{ The geometric language of the calculus on manifolds is really the ``new math'' for physicists and should be learned by all.} Preface p.~x. \enquote{The difficulty of the material here arises not from complicated analytical manipulations, but from the fact that it demands subtle and fundamental thinking. This demand makes it a healthy complement to the usual courses, which are heavy on technical manipulation. I have tried to make the book suitable both for classroom use and for independent study} Preface p.~x} } @@ -21709,7 +21724,7 @@ @Article{burke1983 number = {1}, pages = {65--69}, note = {\doi{10.1063/1.525603}}, -keywords = {twisted differential forms, electromagnetism} +keywords = {twisted differential forms, electromagnetics} } @Book{burke1985_r1987, @@ -21720,7 +21735,7 @@ @Book{burke1985_r1987 address = {Cambridge}, edition = {repr.}, note = {\doi{10.1017/CBO9781139171786}. First publ.\ 1985}, -keywords = {twisted differential forms, electromagnetism, relativity, divergence of stress tensor \sect~41}, +keywords = {twisted differential forms, electromagnetics, relativity, divergence of stress tensor \sect~41}, mynote = {epigraph p.~v: \enquote{To all those who, like me, have wondered how in hell you can change $\dot{q}$ without changing $q$.}. \url{https://archive.org/details/applieddifferent0000burk}. Symmetries and conserved quantities, centre of mass \sect~62}, origdate = {1985} } @@ -21742,7 +21757,7 @@ @Misc{burke1995 title = {{Div, Grad, Curl Are Dead}}, year = {1995}, note = {\url{http://people.ucsc.edu/~rmont/papers/Burke_DivGradCurl.pdf}, see also errata at \url{https://www.ucolick.org/~burke/class/dgcaderr.html}, and also \url{http://www.ucolick.org/~burke}}, -keywords = {differential forms, electromagnetism, classical mechanics}, +keywords = {differential forms, electromagnetics, classical mechanics}, mynote = {\enquote{preliminary draft II}, \url{http://people.ucsc.edu/~rmont/goodbooks.html}} } @@ -21751,7 +21766,7 @@ @Misc{burke1995b title = {Twisted Forms: Twisted Differential Forms as they Should Be}, howpublished = {\url{https://www.ucolick.org/~burke/forms/twisted.html}}, year = {1995}, -keywords = {twisted differential forms, electromagnetism, relativity} +keywords = {twisted differential forms, electromagnetics, relativity} } @Misc{burkoetal2003, @@ -21791,7 +21806,6 @@ @Article{burridgeetal1989 volume = {4}, number = {2}, pages = {179--183}, -chapter = {\chapb~}, note = {\doi{10.1214/ss/1177012602}, \doi{10.1214/ss/1177012603}. See \citebi{heitjan1989}}, keywords = {Bayesian probability theory, rounded data} } @@ -21824,7 +21838,7 @@ @Article{burtetal1973 volume = {333}, number = {1593}, pages = {149--156}, -keywords = {electromagnetism, energy-momentum-stress tensor} +keywords = {electromagnetics, energy-momentum-stress tensor} } @Misc{buscemietal2003, @@ -22126,7 +22140,7 @@ @Article{bustamanteetal2006 volume = {182}, number = {1--2}, pages = {125--140}, -keywords = {electromagnetism, continuum thermomechanics} +keywords = {electromagnetics, continuum thermomechanics} } @Article{butler1971, @@ -22687,6 +22701,42 @@ @Article{calinger1976 pages = {211--233} } +@Article{calkin1966, +author = {M. G. Calkin}, +title = {Linear Momentum of Quasistatic Electromagnetic Fields}, +journal = ajp, +year = {1966}, +volume = {34}, +number = {10}, +pages = {921--925}, +note = {\doi{10.1119/1.1972282}}, +keywords = {energy-momentum-stress, Poynting vector, Abraham-Minkowski, electromagnetics} +} + +@Article{calkin1971, +author = {M. G. Calkin}, +title = {Linear Momentum of the Source of a Static Electromagnetic Field}, +journal = ajp, +year = {1971}, +volume = {39}, +number = {5}, +pages = {513--516}, +note = {\doi{10.1119/1.1986204}}, +keywords = {energy-momentum-stress, Poynting vector, Abraham-Minkowski, electromagnetics} +} + +@Article{calkin1979, +author = {M. G. Calkin}, +title = {Comment on: ``{What} the electromagnetic vector potential describes''}, +journal = ajp, +year = {1979}, +volume = {47}, +number = {1}, +pages = {118}, +note = {\doi{10.1119/1.11651}. See \citebi{konopinski1978}}, +keywords = {stress energy, Poynting vector, Abraham-Minkowski, electromagnetics} +} + @Article{callaway1953, author = {Joseph Callaway}, title = {The Equations of Motion in {Einstein's} New Unified Field Theory}, @@ -22916,7 +22966,7 @@ @Article{cameronetal2015 volume = {17}, pages = {125610}, note = {\doi{10.1088/2040-8978/17/12/125610}}, -keywords = {electromagnetism, rotational momentum} +keywords = {electromagnetics, rotational momentum} } @Article{campa2008, @@ -23692,7 +23742,7 @@ @Article{carpenter1999 volume = {146}, number = {2}, pages = {73--82}, -keywords = {energy density, electromagnetism} +keywords = {energy density, electromagnetics} } @Article{carpenteretal2017, @@ -23941,7 +23991,7 @@ @Article{carter1980 number = {1749}, pages = {169--200}, note = {\doi{10.1098/rspa.1980.0108}}, -keywords = {electromagnetism, continuum mechanics, Abraham controversy, general relativity}, +keywords = {electromagnetics, continuum mechanics, Abraham-Minkowski, general relativity}, mynote = {\url{https://www.jstor.org/stable/2990364}. \enquote{the literature on the subject is so dispersed and disorganized that it is hard not only to reconstruct its history but even to assess what may be considered as generally known now. The difficulty results mainly from the fact that many groups and individuals have worked in effective isolation because of different languages and scientific backgrounds (for example, mathematical, astronomical and engineering). Sound and elegant work (such as that of Souriau) has often languished unnoticed in the background of numerous works using more cumbersome (and therefore error prone) methods.} \sect~1 p.~171} } @@ -25551,7 +25601,7 @@ @Article{chamberlainetal1978 number = {3}, pages = {239--240}, note = {\doi{10.1016/0375-9601(78)90504-2}}, -keywords = {quantum mechanics, electromagnetism} +keywords = {quantum mechanics, electromagnetics} } @Article{chamberlin1998, @@ -25575,7 +25625,7 @@ @Article{chambers1999 number = {6}, pages = {468--469}, note = {\doi{10.1119/1.19301}. See also \citebi{romer1999}}, -keywords = {electromagnetism, differential forms} +keywords = {electromagnetics, differential forms} } @Article{chambersetal1941, @@ -25763,7 +25813,7 @@ @Book{changetal2015 volume = {73}, series = {Fields Institute communications}, address = {New York}, -keywords = {electromagnetism, exterior differential forms, Whitney forms} +keywords = {electromagnetics, exterior differential forms, Whitney forms} } @Article{chapman1941, @@ -25897,7 +25947,7 @@ @Article{chatelainetal1963 volume = {129}, number = {3}, pages = {1459--1463}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{chatfield1975_r1995, @@ -26569,7 +26619,7 @@ @Book{chicone1999_r2006 address = {New York}, edition = {2}, note = {\doi{10.1007/0-387-35794-7}. First publ.\ 1999}, -keywords = {constitutive equations, continuum mechanics, electromagnetism}, +keywords = {constitutive equations, continuum mechanics, electromagnetics}, origdate = {1999} } @@ -26579,7 +26629,7 @@ @Book{chicone2017 publisher = {Academic Press}, year = {2017}, address = {London}, -keywords = {constitutive equations, continuum mechanics, electromagnetism} +keywords = {constitutive equations, continuum mechanics, electromagnetics} } @Article{chiconeetal2005, @@ -27291,7 +27341,7 @@ @Book{chung1988_r2007 address = {Cambridge}, edition = {2}, note = {\doi{10.1017/CBO9780511807367}. First publ.\ 1988}, -keywords = {thermodynamics, thermomechanics, electromagnetism, general relativity, 3+1 decomposition}, +keywords = {thermodynamics, thermomechanics, electromagnetics, general relativity, 3+1 decomposition}, origdate = {1988} } @@ -28790,7 +28840,7 @@ @Article{colemanetal1970b volume = {39}, number = {5}, pages = {358--399}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Article{colemanetal1971, @@ -29536,7 +29586,7 @@ @Article{consortini2000 year = {2000}, volume = {3831}, pages = {47--56}, -keywords = {electromagnetism, probability theory} +keywords = {electromagnetics, probability theory} } @Article{constantinetal1988, @@ -30116,7 +30166,7 @@ @Article{corson1956 number = {3}, pages = {126--130}, note = {\doi{10.1119/1.1934165}}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Article{cortescirianoetal2018, @@ -30818,7 +30868,7 @@ @Article{crater1994 number = {10}, pages = {923--931}, note = {See also \citebi{vanzellaetal1996}}, -keywords = {frame indifference, electromagnetism, inertia} +keywords = {frame indifference, electromagnetics, inertia} } @Article{crawford1973, @@ -30931,7 +30981,7 @@ @Article{crenshawetal2011 number = {10--11}, pages = {2460--2465}, note = {\doi{10.1016/j.optcom.2011.01.055}}, -keywords = {electromagnetism, force, general relativity} +keywords = {electromagnetics, force, general relativity} } @Book{creswicketal1992, @@ -31183,7 +31233,7 @@ @Article{crooksetal1978 number = {7}, pages = {729--731}, note = {\doi{10.1119/1.11109}. See also comment in \citebi{scanlonetal1979}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{crosignanietal1996, @@ -31316,7 +31366,7 @@ @Book{crowell1998_r2020 year = {2020}, address = {Fullerton, USA}, note = {\url{https://archive.org/details/lm_20220102}, url{http://www.lightandmatter.com/lm/}. First publ.\ 1998}, -keywords = {classical mechanics, electromagnetism, thermodynamics}, +keywords = {classical mechanics, electromagnetics, thermodynamics}, origdate = {1998} } @@ -31617,7 +31667,7 @@ @Article{cummings2013 volume = {46}, number = {22}, pages = {220202}, -keywords = {quantum theory, electromagnetism} +keywords = {quantum theory, electromagnetics} } @Article{curadoetal1991, @@ -31706,7 +31756,7 @@ @Article{curtisetal1971 number = {5}, pages = {451--468}, note = {\doi{10.1016/0020-7225(71)90047-4}}, -keywords = {electromagnetism, stress, energy, momentum} +keywords = {electromagnetics, stress, energy, momentum} } @Book{curtisetal1985, @@ -31934,7 +31984,7 @@ @Article{daendliker2000 year = {2000}, volume = {3831}, pages = {193--198}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{dafalias2011, @@ -32769,7 +32819,7 @@ @Article{darwin1934 volume = {146}, number = {856}, pages = {17--46}, -keywords = {electromagnetism, light dispersion} +keywords = {electromagnetics, light dispersion} } @Article{dasetal2003, @@ -33258,7 +33308,7 @@ @Book{davis1970 publisher = {Gordon and Breach}, year = {1970}, address = {New York}, -keywords = {continuum mechanics, electromagnetism, general relativity, Dirac equation, energy-momentum-stress tensor} +keywords = {continuum mechanics, electromagnetics, general relativity, Dirac equation, energy-momentum-stress tensor} } @Article{davis1981, @@ -33894,7 +33944,7 @@ @Article{deaveretal1961 volume = {7}, number = {2}, pages = {43--46}, -keywords = {quantum Hall effect, electromagnetism} +keywords = {quantum Hall effect, electromagnetics} } @Article{debaere2005, @@ -34089,7 +34139,7 @@ @Article{debye1909 volume = {30}, number = {14}, pages = {755--776}, -keywords = {electromagnetism, light waves} +keywords = {electromagnetics, light waves} } @Article{debye1910, @@ -34604,7 +34654,7 @@ @Book{degroot1969 volume = {IV}, series = {Studies in statistical mechanics}, address = {Amsterdam}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{degroot1970_r2004, @@ -34627,7 +34677,7 @@ @Article{degrootetal1957 volume = {31}, number = {3}, pages = {254--268}, -keywords = {electromagnetism, statistical mechanics} +keywords = {electromagnetics, statistical mechanics} } @Book{degrootetal1962_r1984, @@ -34650,7 +34700,7 @@ @Article{degrootetal1967 number = {2}, pages = {284--296, 297--308}, note = {\doi{10.1016/0031-8914(67)90163-2}, \doi{10.1016/0031-8914(67)90164-4}. See also \citebi{degrootetal1968}}, -keywords = {electromagnetism, energy-momentum-stress tensor, statistical mechanics} +keywords = {electromagnetics, energy-momentum-stress tensor, statistical mechanics} } @Article{degrootetal1968, @@ -34662,7 +34712,7 @@ @Article{degrootetal1968 number = {1}, pages = {28--40, 41--60, 61--76, 77--83, 84--93}, note = {\doi{10.1016/0031-8914(68)90045-1}, \doi{10.1016/0031-8914(68)90046-3}, \doi{10.1016/0031-8914(68)90047-5}, \doi{10.1016/0031-8914(68)90048-7}, \doi{10.1016/0031-8914(68)90049-9}. See also \citebi{degrootetal1967}}, -keywords = {electromagnetism, energy-momentum-stress tensor, statistical mechanics} +keywords = {electromagnetics, energy-momentum-stress tensor, statistical mechanics} } @Book{degrootetal1972, @@ -34671,7 +34721,7 @@ @Book{degrootetal1972 publisher = {North-Holland}, year = {1972}, address = {Amsterdam}, -keywords = {statistical mechanics, electromagnetism} +keywords = {statistical mechanics, electromagnetics} } @Article{degrootetal1983, @@ -35818,7 +35868,7 @@ @Article{derelietal2007 number = {3}, pages = {190--193}, note = {\doi{10.1016/j.physleta.2006.10.060}}, -keywords = {differential forms, electromagnetism, Abraham controversy} +keywords = {differential forms, electromagnetics, Abraham-Minkowski, general relativity} } @Article{derelietal2007b, @@ -35830,7 +35880,7 @@ @Article{derelietal2007b number = {21}, pages = {5695--5715}, note = {\doi{10.1088/1751-8113/40/21/016}}, -keywords = {differential forms, electromagnetism, Abraham controversy} +keywords = {differential forms, electromagnetics, Abraham-Minkowski, general relativity} } @Article{derham1932, @@ -36074,7 +36124,7 @@ @Book{deschampsetal1970 series = {The teaching of basic sciences}, address = {Berlin}, note = {Ed.\ by {\'E}. Roubine}, -keywords = {differential forms, exterior calculus, exterior algebra, contraction, electromagnetism} +keywords = {differential forms, exterior calculus, exterior algebra, contraction, electromagnetics} } @Article{deserietal2002, @@ -36962,7 +37012,7 @@ @Article{dicarlo2004 volume = {2002}, pages = {1--13}, note = {\doi{10.1007/978-3-642-55872-6_1}. Updated as \citebi{dicarlo2004_r2010}}, -keywords = {continuum mechanics, electromagnetism} +keywords = {continuum mechanics, electromagnetics} } @Misc{dicarlo2004_r2010, @@ -36970,7 +37020,7 @@ @Misc{dicarlo2004_r2010 title = {Lam{\'e's} Elastic Solid Ether Rekindled}, year = {2010}, note = {\url{http://www.dmf.unicatt.it/~musesti/merla/neoclassic/Lame2008.pdf}. First publ.\ 2004 as \citebi{dicarlo2004}}, -keywords = {continuum mechanics, electromagnetism}, +keywords = {continuum mechanics, electromagnetics}, origdate = {2004} } @@ -36981,7 +37031,7 @@ @InCollection{dicarlo2005 year = {2005}, chapter = {\chapb~6}, pages = {53--64}, -keywords = {continuum mechanics, electromagnetism} +keywords = {continuum mechanics, electromagnetics} } @Article{dicarlo2018, @@ -36992,7 +37042,7 @@ @Article{dicarlo2018 volume = {93}, pages = {41--46}, note = {\doi{10.1016/j.mechrescom.2017.10.002}}, -keywords = {electromagnetism, stress, molecular dynamics} +keywords = {electromagnetics, stress, molecular dynamics} } @InCollection{dicarloetal1991, @@ -37033,7 +37083,7 @@ @Article{dick2009 volume = {18}, number = {2--3}, pages = {174--184}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Article{dicke1957, @@ -37491,7 +37541,7 @@ @Article{dirac1955 number = {11}, pages = {650--660}, note = {\doi{10.1139/p55-081}}, -keywords = {electromagnetism, Faraday's lines of force} +keywords = {electromagnetics, Faraday's lines of force} } @Article{dirac1962, @@ -37669,7 +37719,7 @@ @Article{dixon1951 volume = {19}, number = {9}, pages = {536--537}, -keywords = {electromagnetism, Zitterbewegung} +keywords = {electromagnetics, Zitterbewegung} } @Article{dixon1967, @@ -37794,7 +37844,7 @@ @Article{dixonetal1965 number = {3}, pages = {359--377}, note = {See also \citebi{dixonetal1965b}}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Article{dixonetal1965b, @@ -37806,7 +37856,7 @@ @Article{dixonetal1965b number = {3}, pages = {379--398}, note = {See also \citebi{dixonetal1965}}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Book{djaferisetal2001, @@ -37995,7 +38045,7 @@ @Article{dolletal1961 volume = {7}, number = {2}, pages = {51--52}, -keywords = {quantum Hall effect, electromagnetism} +keywords = {quantum Hall effect, electromagnetics} } @Misc{dolletetal2006, @@ -38261,7 +38311,7 @@ @Book{dorfmannetal2014 publisher = {Springer}, year = {2014}, address = {New York}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Article{dorgeloetal1946, @@ -40709,6 +40759,18 @@ @Book{eddington1928_r1958 origdate = {1928} } +@Article{eddyetal1996, +author = {Sean R. Eddy and David J. C. MacKay}, +title = {The {Pope} is (probably) not an alien}, +journal = nat, +year = {1996}, +volume = {382}, +number = {6591}, +pages = {490}, +note = {\doi{10.1038/382490a0}. Updated version at \url{https://www.inference.org.uk/mackay/pope.html}}, +keywords = {p-values, Bayesian probability theory} +} + @Article{edelen1960, author = {Dominic G. B. Edelen}, title = {The affine theory of electricity and gravitation}, @@ -40717,7 +40779,8 @@ @Article{edelen1960 volume = {6}, number = {1}, pages = {1--19}, -keywords = {general relativity} +note = {\doi{10.1007/BF00276150}}, +keywords = {general relativity, energy-momentum-stress, electromagnetics} } @InCollection{edelen1966, @@ -40727,7 +40790,7 @@ @InCollection{edelen1966 year = {1966}, chapter = {\chapb~11}, pages = {105--114}, -keywords = {internal energy, mass flux, energy flux, general relativity} +keywords = {internal energy, mass flux, energy flux, general relativity, energy-momentum-stress, conservation of matter} } @Article{edelen1969, @@ -41055,7 +41118,7 @@ @Article{edmonds1978b volume = {46}, number = {4}, pages = {430--431}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{edmonds1978c, @@ -42046,7 +42109,7 @@ @Article{einstein1905c volume = {17}, pages = {891--921}, note = {Transl.\ in \citebi{einstein1989_t1989} Doc.~23 pp.~140--171}, -keywords = {On the electrodynamics of moving bodies, special relativity, electromagnetism} +keywords = {On the electrodynamics of moving bodies, special relativity, electromagnetics} } @Article{einstein1905d, @@ -43193,7 +43256,7 @@ @Article{eliezer1947 volume = {19}, number = {3}, pages = {147--184}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{eliezer1948, @@ -43205,7 +43268,7 @@ @Article{eliezer1948 number = {1039}, pages = {543--555}, note = {See also \citebi{naumovaetal2009}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{elioetal1997, @@ -44013,7 +44076,7 @@ @Article{ericksen2007 number = {2--3}, pages = {95--108}, note = {\doi{10.1007/s10659-006-9095-8}}, -keywords = {continuum mechanics, electromagnetism}, +keywords = {continuum mechanics, electromagnetics}, mynote = {About Page \citebi[\sects~157--158]{page1928_r1958}: Electromagnetic fields can sustain forces} } @@ -44049,7 +44112,7 @@ @Article{ericksen2007d number = {1}, pages = {38--54}, note = {\doi{10.1177/1081286506069847}}, -keywords = {continuum mechanics, electromagnetism} +keywords = {continuum mechanics, electromagnetics} } @Article{ericksenetal1957, @@ -44266,7 +44329,7 @@ @Book{eringen1976 year = {1976}, address = {New York}, note = {\doi{10.1016/B978-0-12-240803-8.X5001-4}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{eringen1976b, @@ -44448,7 +44511,7 @@ @Book{eringenetal1990 year = {1990}, address = {New York}, note = {\doi{10.1007/978-1-4612-3226-1}}, -keywords = {continuum electromagnetothermomechanics, electromagnetism, continuum theory of brain} +keywords = {continuum electromagnetothermomechanics, electromagnetics, continuum theory of brain} } @Book{eringenetal1990b, @@ -44458,7 +44521,7 @@ @Book{eringenetal1990b year = {1990}, address = {New York}, note = {\doi{10.1007/978-1-4612-3236-0}}, -keywords = {continuum electromagnetothermomechanics, electromagnetism, continuum theory of brain, hydrodynamics} +keywords = {continuum electromagnetothermomechanics, electromagnetics, continuum theory of brain, hydrodynamics} } @Article{erkal2000, @@ -44564,6 +44627,18 @@ @Book{ernstetal2010 keywords = {Bayesian probability theory} } +@Book{erskineetal2001_r2011, +editor = {Ralph Erskine and Michael Smith}, +title = {The Bletchley Park Codebreakers: How Ultra Shortened the War and Led to the Birth of the Computer}, +publisher = {Biteback}, +year = {2011}, +address = {London}, +edition = {updated ed.}, +note = {First publ.\ 2001}, +keywords = {Turing, deciban, Shannon entropy, Banburismus, Bayesian probability theory}, +origdate = {2001} +} + @Article{escande1985, author = {D. F. Escande}, title = {Stochasticity in classical {Hamiltonian} systems: Universal aspects}, @@ -44637,7 +44712,7 @@ @Article{eshelby1975 volume = {5}, number = {3--4}, pages = {321--335}, -keywords = {continuum mechanics, electromagnetism} +keywords = {continuum mechanics, electromagnetics} } @Book{eskinazi1966, @@ -44769,6 +44844,30 @@ @Article{essexetal2002 pages = {969--978} } +@Article{essmannetal1967, +author = {Uwe Essmann and Hermann Tr{\"a}uble}, +title = {The direct observation of individual flux lines in type~{II} superconductors}, +journal = pla, +year = {1967}, +volume = {24}, +number = {10}, +pages = {526--527}, +note = {\doi{10.1016/0375-9601(67)90819-5}}, +keywords = {electromagnetics, magnetic flux, quantum theory} +} + +@Article{essmannetal1971, +author = {Uwe Essmann and Hermann Tr{\"a}uble}, +title = {The Magnetic Structure of Superconductors}, +journal = sa, +year = {1971}, +volume = {224}, +number = {3}, +pages = {74--84}, +note = {\doi{0.1038/scientificamerican0371-74}}, +keywords = {electromagnetics, magnetic flux, quantum theory} +} + @Misc{estabrook2006, author = {Estabrook, Frank B.}, title = {Field Theories found Geometrically from Embeddings in Flat Frame Bundles}, @@ -45193,7 +45292,7 @@ @Article{euleretal1935 volume = {23}, number = {15}, pages = {246--247}, -keywords = {scattering of light by light, vacuum constitutive relations, electromagnetism, quantum field theory, Maxwell-Lorentz aether relations} +keywords = {scattering of light by light, vacuum constitutive relations, electromagnetics, quantum field theory, Maxwell-Lorentz aether relations} } @InCollection{evans1979, @@ -45237,7 +45336,7 @@ @Book{evans1993_r2001 address = {New York}, edition = {2}, note = {First publ.\ 1993}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, origdate = {1993} } @@ -45251,7 +45350,7 @@ @Book{evans1993_r2001b address = {New York}, edition = {2}, note = {First publ.\ 1993}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, origdate = {1993} } @@ -45265,7 +45364,7 @@ @Book{evans1993_r2001c address = {New York}, edition = {2}, note = {First publ.\ 1993}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, origdate = {1993} } @@ -45772,7 +45871,7 @@ @Book{fanoetal1960_r1968 year = {1968}, address = {Cambridge, USA}, note = {First publ.\ 1960}, -keywords = {energy-momentum tensor, electromagnetism}, +keywords = {energy-momentum tensor, electromagnetics}, origdate = {1960} } @@ -45792,7 +45891,7 @@ @Book{fantom1990 volume = {7}, series = {IEE electrical measurement series}, address = {London}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{faraday1839_r1849, @@ -45803,7 +45902,7 @@ @Book{faraday1839_r1849 address = {London}, edition = {2}, note = {\url{http://gallica.bnf.fr/notice?N=FRBNF37277630}; \enquote{Reprinted from the \textsc{Philosophical Transactions} of 1831--1838}. First publ.\ 1839}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, origdate = {1839} } @@ -45814,7 +45913,7 @@ @Book{faraday1844 year = {1844}, address = {London}, note = {\url{http://gallica.bnf.fr/notice?N=FRBNF37277633}; \enquote{Reprinted from the \textsc{Philosophical Transactions} of 1838--1843, With other Electrical Papers From the \textsc{Quarterly Journal of Science} and \textsc{Philosophical Magazine}}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{faraday1846, @@ -45836,7 +45935,7 @@ @Book{faraday1855 year = {1855}, address = {London}, note = {\url{http://gallica.bnf.fr/notice?N=FRBNF37277635}; \enquote{Reprinted from the \textsc{Philosophical Transactions} of 1846--1852. With other Electrical Papers from the \textsc{Proceedings} of the \textsc{Royal Institution} and \textsc{Philosophical Magazine}}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{faraday1861_r1908, @@ -46120,7 +46219,7 @@ @Article{fauser2001b number = {5}, pages = {875--887}, note = {\doi{10.1023/A:1010259908844}}, -keywords = {general relativity, electromagnetism, projective geometry} +keywords = {general relativity, electromagnetics, projective geometry} } @Article{favretti2005, @@ -47486,7 +47585,7 @@ @Article{finzi1952 volume = {XII}, number = {4, 5}, pages = {378--382, 477--480}, -keywords = {on the principle of least action and the electromagnetic equation deduced therefrom, electromagnetism, Abraham controversy, general relativity} +keywords = {on the principle of least action and the electromagnetic equation deduced therefrom, electromagnetics, Abraham-Minkowski, general relativity} } @Article{finzi1963, @@ -47868,7 +47967,7 @@ @Article{fitzgerald1889 volume = {13}, number = {328}, pages = {390}, -keywords = {electromagnetism, relativity theory} +keywords = {electromagnetics, relativity theory} } @Article{fitzpatrick1966, @@ -47955,7 +48054,7 @@ @Book{flanders1963_r1989 year = {1989}, address = {New York}, note = {First publ.\ 1963}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, origdate = {1963} } @@ -48597,7 +48696,7 @@ @Article{forrester1956 volume = {24}, number = {4}, pages = {192--196}, -keywords = {quantum field theory, quantum optics, modes, electromagnetism} +keywords = {quantum field theory, quantum optics, modes, electromagnetics} } @Article{forrey1997, @@ -49235,7 +49334,7 @@ @Book{frankel1979 publisher = {W. H. Freeman and Company}, year = {1979}, address = {San Francisco}, -keywords = {general relativity, continuum mechanics, energy-momentum-stress tensor, electromagnetism, twisted differential forms} +keywords = {general relativity, continuum mechanics, energy-momentum-stress tensor, electromagnetics, twisted differential forms} } @Book{frankel1997_r2012, @@ -50779,7 +50878,7 @@ @Article{furry1969 number = {6}, pages = {621--636}, note = {\doi{10.1119/1.1975729}}, -keywords = {electromagnetism, relativity theory, Poynting vector} +keywords = {electromagnetics, relativity theory, Poynting vector} } @Article{furryetal1960, @@ -50975,7 +51074,7 @@ @Article{gabuzda1987 volume = {55}, number = {5}, pages = {420--422}, -keywords = {electromagnetism, relativity theory} +keywords = {electromagnetics, relativity theory} } @Article{gageetal1973, @@ -51982,14 +52081,15 @@ @Article{garrisonetal1970 } @Article{garrisonetal2004, -author = {J. C. Garrison and R. Y. Chiao}, +author = {John C. Garrison and R. Y. Chiao}, title = {Canonical and kinetic forms of the electromagnetic momentum in an \emph{ad hoc} quantization scheme for a dispersive dielectric}, journal = pra, year = {2004}, volume = {70}, number = {5}, pages = {053826}, -keywords = {electromagnetics, quantum theory, quantum field theory, modes} +note = {\doi{10.1103/PhysRevA.70.053826}}, +keywords = {electromagnetics, quantum field theory, modes, energy-momentum-stress, Abraham-Minkowski} } @Article{garthwaite1992, @@ -53780,6 +53880,18 @@ @Article{gingoldetal1977 keywords = {statistical mechanics, molecular dynamics, thermodynamics, continuum mechanics, second law} } +@Article{gingras1980, +author = {Yves Gingras}, +title = {Comment on ``{What} the electromagnetic vector potential describes''}, +journal = ajp, +year = {1980}, +volume = {48}, +number = {1}, +pages = {84}, +note = {\doi{10.1119/1.12272}. See \citebi{konopinski1978}}, +keywords = {stress energy, Poynting vector, Abraham-Minkowski, electromagnetics} +} + @Article{ginzburg1960_t1961, author = {V. L. Ginzburg}, title = {Some remarks on phase transitions of the second kind and the microscopic theory of ferroelectric materials}, @@ -54552,7 +54664,7 @@ @Article{goenner2004 year = {2004}, volume = {7}, pages = {2}, -keywords = {Kaluza-Klein theory, general relativity, affine connection, parallelism, electromagnetism} +keywords = {Kaluza-Klein theory, general relativity, affine connection, parallelism, electromagnetics} } @Article{goenner2012, @@ -55558,7 +55670,7 @@ @Book{goodman1985_r2000 series = {Wiley classics library}, address = {New York}, note = {First publ.\ 1985}, -keywords = {electromagnetism, statistical mechanics}, +keywords = {electromagnetics, statistical mechanics}, origdate = {1985} } @@ -55784,7 +55896,7 @@ @Article{gordon1923 number = {22}, pages = {421--456}, note = {\doi{10.1002/andp.19233772202}}, -keywords = {on the propagation of light according to the theory of relativity, electromagnetism, continuum mechanics, general relativity} +keywords = {on the propagation of light according to the theory of relativity, electromagnetics, continuum mechanics, general relativity} } @Article{gordon1973, @@ -55795,7 +55907,8 @@ @Article{gordon1973 volume = {8}, number = {1}, pages = {14--21}, -keywords = {electromagnetism, energy-momentum tensor} +note = {\doi{10.1103/PhysRevA.8.14}}, +keywords = {electromagnetics, energy-momentum-stress, Abraham-Minkowski, general relativity} } @Article{gordon1975, @@ -56534,7 +56647,7 @@ @Article{grandboisetal1999 volume = {283}, number = {5408}, pages = {1727--1730}, -keywords = {molecular biology, electromagnetism, force} +keywords = {molecular biology, electromagnetics, force} } @Article{grandy1969, @@ -57028,7 +57141,7 @@ @Article{gratus2022 number = {6}, pages = {065202}, note = {\doi{10.1088/1751-8121/ac48ee}}, -keywords = {electromagnetism, electrodynamics} +keywords = {electromagnetics, electrodynamics} } @Misc{gratusetal2005, @@ -57047,7 +57160,7 @@ @Article{gratusetal2012 number = {10}, pages = {2560--2590}, note = {\doi{10.1016/j.aop.2012.07.006}}, -keywords = {electromagnetism, Abraham controversy} +keywords = {electromagnetics, Abraham-Minkowski} } @Article{gratusetal2019, @@ -57059,7 +57172,7 @@ @Article{gratusetal2019 number = {2}, pages = {025203}, note = {\doi{10.1088/1361-6404/ab009c}}, -keywords = {electromagnetism, differential forms} +keywords = {electromagnetics, differential forms} } @Book{graves1946, @@ -57929,14 +58042,14 @@ @Article{griffiths1974b keywords = {statistical mechanics, thermodynamics, critical phenomena} } -@Book{griffiths1981_r1999, +@Book{griffiths1981_r2024, author = {David Jeffrey Griffiths}, title = {Introduction to Electrodynamics}, -publisher = {Prentice Hall}, -year = {1999}, -address = {Upper Saddle River, USA}, -edition = {3}, -note = {First publ.\ 1981}, +publisher = {Cambridge University Press}, +year = {2024}, +address = {Cambridge}, +edition = {5}, +note = {\doi{10.1017/9781009397735}. First publ.\ 1981}, origdate = {1981} } @@ -57949,7 +58062,7 @@ @Article{griffiths1989 number = {6}, pages = {558}, note = {\doi{10.1119/1.15976}. See \citebi{sharma1988}}, -keywords = {electromagnetism, continuum mechanics, angular momentum} +keywords = {electromagnetics, continuum mechanics, angular momentum} } @Article{griffiths1992, @@ -57959,7 +58072,9 @@ @Article{griffiths1992 year = {1992}, volume = {60}, number = {2}, -pages = {187} +pages = {187}, +note = {\doi{10.1119/1.16942}}, +keywords = {electromagnetics} } @Book{griffiths1995, @@ -57991,7 +58106,7 @@ @Article{griffiths2004 } @Article{griffiths2012, -author = {David J. Griffiths}, +author = {David Jeffrey Griffiths}, title = {Resource Letter {EM-1}: {Electromagnetic} Momentum}, journal = ajp, year = {2012}, @@ -57999,7 +58114,7 @@ @Article{griffiths2012 number = {1}, pages = {7--18}, note = {\doi{10.1119/1.3641979}}, -keywords = {stress energy, Poynting vector, Abraham controversy} +keywords = {stress energy, Poynting vector, Abraham-Minkowski, electromagnetics, general relativity} } @Article{griffithsetal1971, @@ -58136,7 +58251,7 @@ @Book{grioli1985 volume = {228}, series = {Lectures notes in physics}, address = {Berlin}, -keywords = {continuum mechanics, second law, entropy, electromagnetism, relativity theory} +keywords = {continuum mechanics, second law, entropy, electromagnetics, relativity theory} } @InCollection{grioli2001, @@ -58667,7 +58782,7 @@ @Misc{gsponer2003 title = {What is spin?}, year = {2003}, note = {\arxiveprint{physics/0308027}}, -keywords = {electromagnetism, rotational momentum} +keywords = {electromagnetics, rotational momentum} } @Misc{gsponer2004, @@ -59795,7 +59910,7 @@ @Article{gyoergyi1954 volume = {4}, number = {2}, pages = {121--131}, -keywords = {electromagnetism, stress-energy tensor} +keywords = {electromagnetics, stress-energy tensor} } @Article{gyoergyi1960, @@ -59806,7 +59921,7 @@ @Article{gyoergyi1960 volume = {28}, number = {2}, pages = {85--88}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @InCollection{haag1982, @@ -60128,7 +60243,7 @@ @Article{hacyanetal1989 number = {8}, pages = {2641--2646}, note = {\doi{10.1103/PhysRevD.40.2641}}, -keywords = {electromagnetism, Poynting vector} +keywords = {electromagnetics, Poynting vector} } @Article{hacyanetal1990, @@ -60585,7 +60700,7 @@ @Article{haissinskietal2006 volume = {74}, number = {6}, pages = {678--681}, -keywords = {scattering of light by light, vacuum constitutive relations, electromagnetism, quantum field theory, Maxwell-Lorentz aether relations} +keywords = {scattering of light by light, vacuum constitutive relations, electromagnetics, quantum field theory, Maxwell-Lorentz aether relations} } @InCollection{hajek2002_r2019, @@ -61509,7 +61624,7 @@ @Article{hammond2004 volume = {11}, number = {3}, pages = {1--8}, -keywords = {electromagnetism, differential forms} +keywords = {electromagnetics, differential forms} } @Book{hammondetal1999, @@ -62533,7 +62648,7 @@ @Article{hassanetal1975 volume = {8}, number = {9}, pages = {L147--L152}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Article{hassanetal2005, @@ -62544,7 +62659,7 @@ @Article{hassanetal2005 volume = {7}, number = {11}, pages = {329--340}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Book{hassani1999_r2009, @@ -62669,7 +62784,7 @@ @Misc{hauganetal2000 title = {On the experimental foundations of the {Maxwell} equations}, year = {2000}, note = {\arxiveprint{gr-qc/0002075}}, -keywords = {relativity, electromagnetism} +keywords = {relativity, electromagnetics} } @Book{haugetal1990_r2004, @@ -62753,7 +62868,7 @@ @Article{haus1969 number = {1}, pages = {77--91}, note = {\doi{10.1016/0031-8914(69)90283-3}}, -keywords = {electromagnetism, Abraham controversy} +keywords = {electromagnetics, Abraham-Minkowski} } @Book{haus1984, @@ -62782,7 +62897,7 @@ @Book{hausetal1989 year = {1989}, address = {Englewood Cliffs, USA}, note = {\url{http://web.mit.edu/6.013_book/www}, \url{http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-641Spring-2005/Readings}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{hausetal1990, @@ -62859,7 +62974,7 @@ @Article{havas1957b volume = {108}, number = {5}, pages = {1351--1352}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{havas1964, @@ -62882,7 +62997,7 @@ @Article{havas1966 volume = {34}, number = {8}, pages = {667--669}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @InCollection{havas1967, @@ -63100,7 +63215,7 @@ @Article{hawton1991 volume = {43}, number = {9}, pages = {4588--4593}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Article{hawton1992, @@ -63111,7 +63226,7 @@ @Article{hawton1992 volume = {46}, number = {11}, pages = {6846--6850}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Article{hayashietal2003, @@ -63186,7 +63301,7 @@ @Article{heald1984 number = {6}, pages = {522--526}, note = {\doi{10.1119/1.13611}}, -keywords = {electromagnetism, Poynting vector} +keywords = {electromagnetics, Poynting vector} } @Book{healey2007, @@ -63457,7 +63572,7 @@ @Article{hehl2008b volume = {17}, number = {9}, pages = {691--704}, -keywords = {electromagnetism, relativity theory, differential forms, twisted forms} +keywords = {electromagnetics, relativity theory, differential forms, twisted forms} } @Article{hehl2012_r2017, @@ -63537,7 +63652,7 @@ @Misc{hehletal1999b title = {Spacetime metric from linear electrodynamics {II}}, year = {1999}, note = {\arxiveprint{gr-qc/9911096}. See also \citebi{obukhovetal1999}}, -keywords = {general relativity, electromagnetism, twisted differential forms} +keywords = {general relativity, electromagnetics, twisted differential forms} } @Misc{hehletal2000, @@ -63597,7 +63712,7 @@ @Article{hehletal2005b volume = {334}, number = {4}, pages = {249--259}, -keywords = {electromagnetism, differential forms} +keywords = {electromagnetics, differential forms} } @Misc{hehletal2006, @@ -63605,7 +63720,7 @@ @Misc{hehletal2006 title = {Recent developments in premetric classical electrodynamics}, year = {2006}, note = {\arxiveprint{physics/0610221}}, -keywords = {electromagnetism, relativity, differential forms} +keywords = {electromagnetics, relativity, differential forms} } @InCollection{hehletal2006b, @@ -63614,7 +63729,7 @@ @InCollection{hehletal2006b booktitle = {\NoCaseChange{\citein{ehlersetal2006}}}, year = {2006}, pages = {163--187}, -keywords = {differential forms, gravitation, metric tensor, electromagnetism} +keywords = {differential forms, gravitation, metric tensor, electromagnetics} } @Article{hehletal2008, @@ -63625,7 +63740,7 @@ @Article{hehletal2008 volume = {40}, number = {6}, pages = {1239--1248}, -keywords = {electromagnetism, relativity, differential forms} +keywords = {electromagnetics, relativity, differential forms} } @Article{hehletal2009, @@ -63647,7 +63762,7 @@ @Article{hehletal2019 volume = {531}, number = {5}, pages = {1800407}, -keywords = {dimensional analysis, intrinsic dimension, electromagnetism, differential forms} +keywords = {dimensional analysis, intrinsic dimension, electromagnetics, differential forms} } @Book{heidbreder1996, @@ -64166,7 +64281,7 @@ @Article{helstrom1967 volume = {10}, number = {3}, pages = {254--291}, -keywords = {quantum-state assignment, probability theory, electromagnetism} +keywords = {quantum-state assignment, probability theory, electromagnetics} } @Article{helstrom1974, @@ -64412,7 +64527,7 @@ @Article{henrotteetal2004 volume = {2002}, pages = {214--222}, note = {\doi{10.1007/978-3-642-55872-6_22}}, -keywords = {continuum mechanics, electromagnetism} +keywords = {continuum mechanics, electromagnetics} } @Article{henrotteetal2004b, @@ -64424,7 +64539,7 @@ @Article{henrotteetal2004b number = {1--2}, pages = {235--243}, note = {\doi{10.1016/j.cam.2003.06.012}}, -keywords = {continuum mechanics, Abraham controversy} +keywords = {continuum mechanics, Abraham-Minkowski} } @Article{henry2009, @@ -64633,7 +64748,7 @@ @Article{hernandezetal1988 number = {1}, pages = {91}, note = {See \citebi{peters1985} and also \citebi{peters1988}}, -keywords = {electromagnetism, relativity theory} +keywords = {electromagnetics, relativity theory} } @Article{hernandezetal2019, @@ -64789,7 +64904,7 @@ @Article{herrmannetal1985 number = {1}, pages = {16--21}, note = {\url{http://www.physikdidaktik.uni-karlsruhe.de/publication/ejp/pub-ejp.html}}, -keywords = {stress, energy-momentum-stress tensor, force, electromagnetism, momentum} +keywords = {stress, energy-momentum-stress tensor, force, electromagnetics, momentum} } @Book{herrmannetal1990, @@ -65238,7 +65353,7 @@ @Book{hestenesetal1991 volume = {45}, series = {Fundamental theories of physics}, address = {Dordrecht}, -keywords = {neoclassical theory, electromagnetism} +keywords = {neoclassical theory, electromagnetics} } @Article{hetherington1987, @@ -66237,7 +66352,7 @@ @Article{hirst1997 number = {4}, pages = {607--628}, note = {\doi{10.1103/RevModPhys.69.607}}, -keywords = {electromagnetism, electric displacement, charge-current 3-form}, +keywords = {electromagnetics, electric displacement, charge-current 3-form}, mynote = {He says he wants to propose a theory different from Lorentz's, but it's basically the same as in Truesdell and Toupin} } @@ -66358,7 +66473,7 @@ @Article{hnizdo1997 volume = {65}, number = {1}, pages = {55--65}, -keywords = {electromagnetism, relativity theory} +keywords = {electromagnetics, relativity theory} } @Article{hobertetal1996, @@ -67567,7 +67682,7 @@ @Article{horibata1977 number = {8}, pages = {823--828}, note = {\doi{10.1515/zna-1977-0805}}, -keywords = {continuum mechanics, electromagnetism} +keywords = {continuum mechanics, electromagnetics} } @Book{hornetal1985_r1990, @@ -68198,7 +68313,7 @@ @Article{huang1952 volume = {20}, number = {8}, pages = {479--484}, -keywords = {quantum mechanics, electromagnetism} +keywords = {quantum mechanics, electromagnetics} } @Article{huang2015, @@ -68984,7 +69099,7 @@ @Article{hutter1977b volume = {64}, number = {3}, pages = {193--298}, -keywords = {entropy, second law, rational thermodynamics, continuum thermomechanics, electromagnetism} +keywords = {entropy, second law, rational thermodynamics, continuum thermomechanics, electromagnetics} } @Article{hutter1991, @@ -69070,7 +69185,7 @@ @Book{hutteretal1978_r2006 address = {Berlin}, edition = {2}, note = {\doi{10.1007/3-540-37240-7}. First publ.\ 1978}, -keywords = {continuum mechanics, continuum electromagnetothermomechanics, electromagnetism, continuum theory of brain}, +keywords = {continuum mechanics, continuum electromagnetothermomechanics, electromagnetics, continuum theory of brain}, origdate = {1978} } @@ -70286,7 +70401,7 @@ @Article{israel1977 number = {1}, pages = {125--128}, note = {\doi{10.1016/0370-2693(77)90824-3}}, -keywords = {electromagnetism, stress, energy, momentum} +keywords = {electromagnetics, stress, energy, momentum} } @Book{israel1979, @@ -70317,7 +70432,7 @@ @InCollection{israeletal1980 year = {1980}, chapter = {\chapb~13}, pages = {491--525}, -keywords = {general relativity, continuum thermomechanics} +keywords = {general relativity, continuum thermomechanics, electromagnetics, Abraham-Minkowski} } @Article{iter1999, @@ -70338,7 +70453,7 @@ @Article{itin2002 volume = {34}, number = {11}, pages = {1819--1837}, -keywords = {electromagnetism, relativity, differential forms} +keywords = {electromagnetics, relativity, differential forms} } @Article{ito1981, @@ -70608,7 +70723,7 @@ @Article{jackson1996 number = {7}, pages = {855--870}, note = {\doi{10.1119/1.18112}}, -keywords = {electromagnetism, Poynting vector} +keywords = {electromagnetics, Poynting vector} } @Article{jackson2000, @@ -70827,7 +70942,7 @@ @Article{jacobsetal2010 number = {12}, pages = {1432--1433}, note = {\doi{10.1119/1.3480576}}, -keywords = {electromagnetism, Poynting vector} +keywords = {electromagnetics, Poynting vector} } @Article{jacobson1995, @@ -70932,6 +71047,18 @@ @Article{jaffe2005 pages = {021301(R)} } +@Article{jagannathan2009, +author = {Kannan Jagannathan}, +title = {Momentum due to pressure: A simple model}, +journal = ajp, +year = {2009}, +volume = {77}, +number = {5}, +pages = {432--433}, +note = {\doi{10.1119/1.3081105}}, +keywords = {stress energy, electromagnetics, general relativity} +} + @Article{jainetal2007, author = {Dharmesh Jain and A. Das and Sayan Kar}, title = {Path integrals and wavepacket evolution for damped mechanical systems}, @@ -71064,6 +71191,16 @@ @Book{jammer1974 address = {New York} } +@Book{jancewicz1988, +author = {Bernard Jancewicz}, +title = {Multivectors and Clifford Algebra in Electrodynamics}, +publisher = {World Scientific}, +year = {1988}, +address = {Singapore}, +note = {\doi{10.1142/0419}}, +keywords = {electromagnetics, differential forms, multivectors, differential geometry} +} + @Article{jancewicz1996, author = {Bernard Jancewicz}, title = {A Variable Metric Electrodynamics. {The} {Coulomb} and {Biot-Savart} Laws in Anisotropic Media}, @@ -71072,7 +71209,7 @@ @Article{jancewicz1996 volume = {245}, number = {2}, pages = {227--274}, -keywords = {differential forms} +keywords = {differential forms, twisted forms, twisted vectors, electromagnetics, relativity} } @Misc{jancewicz1998, @@ -71083,6 +71220,16 @@ @Misc{jancewicz1998 keywords = {differential forms, Clifford algebra, geometric algebra} } +@Book{jancewicz2021, +author = {Bernard Jancewicz}, +title = {Directed Quantities in Electrodynamics}, +publisher = {Birkh{\"a}user}, +year = {2021}, +address = {Cham}, +note = {\doi{10.1007/978-3-030-90471-5}}, +keywords = {electromagnetics, differential forms, multivectors, differential geometry} +} + @Article{janke1998, author = {Wolfhard Janke}, title = {Canonical versus microcanonical analysis of first-order phase transitions}, @@ -72250,7 +72397,7 @@ @Article{jeckelmannetal2001 number = {12}, pages = {1603--1655}, note = {\url{http://sites.fas.harvard.edu/~phys191r/References/e3/jeckelmann2001.pdf}}, -keywords = {quantum Hall effect, electromagnetism} +keywords = {quantum Hall effect, electromagnetics} } @Book{jeffersetal1997, @@ -72556,7 +72703,7 @@ @Article{jefimenko1962 number = {1}, pages = {19--21}, note = {\doi{10.1119/1.1941887}}, -keywords = {electromagnetism, Poynting vector} +keywords = {electromagnetics, Poynting vector} } @Book{jefimenko1966_r1989, @@ -72567,7 +72714,7 @@ @Book{jefimenko1966_r1989 address = {Star City, USA}, edition = {2}, note = {First publ.\ 1966}, -keywords = {electromagnetism, circuits}, +keywords = {electromagnetics, circuits}, origdate = {1966} } @@ -72579,7 +72726,7 @@ @Article{jefimenko1999 volume = {20}, number = {1}, pages = {39--44}, -keywords = {electromagnetism, relativity theory} +keywords = {electromagnetics, relativity theory} } @Article{jefimenko2004, @@ -72608,7 +72755,7 @@ @Article{jefimenkoetal2002 number = {9}, pages = {964}, note = {See \citebi{rohrlich2002b}}, -keywords = {electromagnetism, Newtonian mechanics} +keywords = {electromagnetics, Newtonian mechanics} } @Article{jehle1975, @@ -72619,7 +72766,7 @@ @Article{jehle1975 volume = {11}, number = {8}, pages = {2147--2177}, -keywords = {quantum mechanics, electromagnetism, differential forms} +keywords = {quantum mechanics, electromagnetics, differential forms} } @Article{jeng2005, @@ -73534,7 +73681,7 @@ @Article{jonesetal1954 volume = {221}, number = {1147}, pages = {480--498}, -keywords = {electromagnetism, energy-momentum tensor} +keywords = {electromagnetics, energy-momentum tensor} } @Article{jonesetal1986, @@ -74764,7 +74911,7 @@ @Article{kaluza1921 volume = {1921}, pages = {966--972}, note = {Transl.\ as \citebi{kaluza1921_t2018}}, -keywords = {On the unification problem in physics, Kaluza-Klein theory, general relativity, electromagnetism} +keywords = {On the unification problem in physics, Kaluza-Klein theory, general relativity, electromagnetics} } @Article{kaluza1921_t2018, @@ -74776,7 +74923,7 @@ @Article{kaluza1921_t2018 number = {14}, pages = {1870001}, note = {Transl.\ by T. Toth of \citebi{kaluza1921}}, -keywords = {Kaluza-Klein theory, general relativity, electromagnetism}, +keywords = {Kaluza-Klein theory, general relativity, electromagnetics}, origdate = {1921} } @@ -75895,7 +76042,7 @@ @Article{kemp2015 volume = {60}, pages = {437--488}, note = {\doi{10.1016/bs.po.2015.02.005}}, -keywords = {Poynting vector, Abraham controversy, electromagnetism} +keywords = {Poynting vector, Abraham-Minkowski, electromagnetics} } @Article{kempetal1956, @@ -76437,7 +76584,7 @@ @Article{kheyfetsetal1991 volume = {32}, number = {11}, pages = {3168--3175}, -keywords = {relativity theory, electromagnetism, differential forms} +keywords = {relativity theory, electromagnetics, differential forms} } @Article{kheyfetsetal1992, @@ -76562,6 +76709,17 @@ @Book{khrennikov2004 address = {V{\"a}xj{\"o}, Sweden} } +@Article{kiaer1895, +author = {A. N. Kiaer}, +title = {\langnohyph{{Observations} et exp{\'e}riences concernant des d{\'e}nombrements repr{\'e}sentatifs}}, +journal = bisi, +year = {1895}, +volume = {IX}, +number = {2}, +note = {\url{https://hdl.handle.net/2027/hvd.32044105230106?urlappend=\%3Bseq=532\%3Bownerid=27021597765395912-544}}, +keywords = {Observations and experiences about the counting of representatives} +} + @Article{kibble1961, author = {Tom W. B. Kibble}, title = {Lorentz Invariance and the Gravitational Field}, @@ -76624,7 +76782,7 @@ @Article{kiehn1977 volume = {18}, number = {4}, pages = {614--624}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{kiehn1977b, @@ -76636,7 +76794,7 @@ @Article{kiehn1977b number = {5--6}, pages = {301--311}, note = {See also \citebi{post1979d,kiehn1979}}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{kiehn1979, @@ -76648,7 +76806,7 @@ @Article{kiehn1979 number = {5--6}, pages = {425--426}, note = {See \citebi{kiehn1977b,post1979d}}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Misc{kiehn1997, @@ -76656,7 +76814,7 @@ @Misc{kiehn1997 title = {{Maxwell Faraday} and {Maxwell Ampere} Equations}, year = {1997}, note = {\url{http://www22.pair.com/csdc/pd2/pd2fre21.htm}}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Misc{kiehn1997b, @@ -76664,7 +76822,7 @@ @Misc{kiehn1997b title = {Electromagnetism and Differential Forms: The Topology of Forces {$(E,B)$} vs The Topology of Sources {$(D,H)$}}, year = {1997}, note = {\url{http://www22.pair.com/csdc/pd2/pd2fre21.htm}}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Misc{kiehn2006, @@ -76672,7 +76830,7 @@ @Misc{kiehn2006 title = {A topological theory of the Physical Vacuum}, year = {2006}, note = {\arxiveprint{gr-qc/0602118}}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Book{kielanowskietal2013, @@ -78305,7 +78463,7 @@ @Article{klein1981b volume = {49}, number = {6}, pages = {603--604}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @InCollection{klein1989, @@ -78741,7 +78899,7 @@ @Article{klyshko1995 year = {1995}, volume = {755}, pages = {13--26}, -keywords = {quantum theory, electromagnetism} +keywords = {quantum theory, electromagnetics} } @Misc{klysko0000, @@ -79648,6 +79806,18 @@ @Book{konnikova2013 address = {Edinburgh} } +@Article{konopinski1978, +author = {E. J. Konopinski}, +title = {What the electromagnetic vector potential describes}, +journal = ajp, +year = {1978}, +volume = {46}, +number = {5}, +pages = {499--502}, +note = {\doi{10.1119/1.11298}. See also comments \citebi{calkin1979,gingras1980}}, +keywords = {stress energy, Poynting vector, Abraham-Minkowski, electromagnetics} +} + @Article{kooketal2017, author = {Jeong Hwan Kook and Michele Guindani and Linlin Zhang and Marina Vannucci}, title = {\emph{{NPBayes-fMRI}}: Non-parametric {Bayesian} General Linear Models for Single- and Multi-Subject {fMRI} Data}, @@ -79921,7 +80091,7 @@ @Article{kotiuga2005 volume = {12}, number = {2}, pages = {1--8}, -keywords = {electromagnetism, differential forms} +keywords = {electromagnetics, differential forms} } @Article{kotsovinosetal1977, @@ -80095,7 +80265,7 @@ @Book{kovetz1990_r2000 year = {2000}, address = {Oxford}, note = {First publ.\ 1990}, -keywords = {electromagnetism, continuum electromagnetomechanics, continuum theory of brain}, +keywords = {electromagnetics, continuum electromagnetomechanics, continuum theory of brain}, origdate = {1990} } @@ -80107,7 +80277,7 @@ @Article{kovetzetal1969 volume = {37}, number = {4}, pages = {382--385}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{kovtun2012, @@ -80176,7 +80346,7 @@ @Article{kracklauer2000 volume = {25}, number = {2}, pages = {193--207}, -keywords = {quantum field theory, electromagnetism, modes, hidden variables} +keywords = {quantum field theory, electromagnetics, modes, hidden variables} } @Misc{kracklauer2002, @@ -80184,7 +80354,7 @@ @Misc{kracklauer2002 title = {Exclusion of correlation in the theorem of {Bell}}, year = {2002}, note = {\arxiveprint{quant-ph/0210121}}, -keywords = {quantum field theory, electromagnetism, modes, hidden variables} +keywords = {quantum field theory, electromagnetics, modes, hidden variables} } @Article{kracklauer2002b, @@ -80206,7 +80376,7 @@ @Article{kracklauer2005 volume = {26}, number = {6}, pages = {524--529}, -keywords = {quantum field theory, electromagnetism, modes, hidden variables} +keywords = {quantum field theory, electromagnetics, modes, hidden variables} } @Article{kracklauer2007, @@ -80394,7 +80564,7 @@ @Article{kranys1982 volume = {20}, number = {11}, pages = {1193--1213}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Article{kratochviletal1969, @@ -80697,7 +80867,7 @@ @Article{kroener1959 volume = {4}, number = {1}, pages = {273--334}, -keywords = {electromagnetism, continuum mechanics, stress, metric} +keywords = {electromagnetics, continuum mechanics, stress, metric} } @Article{kroener1967, @@ -80815,7 +80985,7 @@ @Article{krotov1987 volume = {323}, number = {3}, pages = {345--372}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Misc{krueger2004, @@ -81574,7 +81744,7 @@ @Article{kwiatetal1995 volume = {74}, number = {24}, pages = {4763--4766}, -keywords = {quantum field theory, quantum optics, modes, electromagnetism} +keywords = {quantum field theory, quantum optics, modes, electromagnetics} } @Article{kyburg1973, @@ -81761,7 +81931,7 @@ @Article{laemmerzahletal2005 volume = {71}, number = {2}, pages = {025007}, -keywords = {relativity, electromagnetism} +keywords = {relativity, electromagnetics} } @Article{lafonetal1991, @@ -81845,7 +82015,7 @@ @Article{lai1981 volume = {49}, number = {4}, pages = {366--367}, -keywords = {electromagnetism, energy-momentum tensor} +keywords = {electromagnetics, energy-momentum tensor} } @Article{lai1981b, @@ -81856,7 +82026,7 @@ @Article{lai1981b volume = {49}, number = {9}, pages = {841--843}, -keywords = {electromagnetism, energy-momentum tensor} +keywords = {electromagnetics, energy-momentum tensor} } @Article{laidlawetal1971, @@ -83183,7 +83353,7 @@ @Article{larmor1897 volume = {190}, pages = {205--300, 493}, note = {Repr.\ in \citebi{larmor1929b} pp.~11--131}, -keywords = {electromagnetism, aether, Gibbs paradox}, +keywords = {electromagnetics, aether, Gibbs paradox}, mynote = {Gibbs paradox, \sect~59} } @@ -83264,7 +83434,7 @@ @Article{larmor1936 volume = {32}, number = {5}, pages = {695--748}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{larralde2012, @@ -83441,7 +83611,7 @@ @Article{laughlin1981 volume = {23}, number = {10}, pages = {5632--5633}, -keywords = {quantum Hall effect, electromagnetism} +keywords = {quantum Hall effect, electromagnetics} } @Article{laughlin2019, @@ -83785,7 +83955,7 @@ @Article{lax1966 volume = {145}, number = {1}, pages = {110--129}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{lax1973, @@ -83817,7 +83987,7 @@ @Article{laxetal1976 volume = {13}, number = {4}, pages = {1777--1784}, -keywords = {continuum mechanics, electromagnetism} +keywords = {continuum mechanics, electromagnetics} } @Book{layetal1994_r2022, @@ -84232,7 +84402,7 @@ @Article{lechner2015 volume = {56}, number = {2}, pages = {022901}, -keywords = {electromagnetism, inertia} +keywords = {electromagnetics, inertia} } @Misc{leckey2003, @@ -84571,7 +84741,7 @@ @Article{leeetal2004 volume = {69}, number = {5}, pages = {052311}, -keywords = {modes, quantum theory, quantum field theory, electromagnetism} +keywords = {modes, quantum theory, quantum field theory, electromagnetics} } @Article{leeetal2005, @@ -84994,7 +85164,7 @@ @Misc{lemoineetal2009 title = {On electromagnetic instabilities at ultra-relativistic shock waves}, year = {2009}, note = {\arxiveprint{0904.2657}}, -keywords = {electromagnetism, plasma physics} +keywords = {electromagnetics, plasma physics} } @Article{lemons1982, @@ -86962,7 +87132,7 @@ @Book{lindell2004 year = {2004}, address = {Piscataway, USA}, note = {\doi{10.1002/0471723096}}, -keywords = {electromagnetism, exterior calculus, exterior algebra, differential geometry, exterior derivative, dual product} +keywords = {electromagnetics, exterior calculus, exterior algebra, differential geometry, exterior derivative, dual product} } @Article{lindell2005, @@ -86973,7 +87143,7 @@ @Article{lindell2005 volume = {54}, pages = {321--333}, note = {\doi{10.2528/PIER05021002}}, -keywords = {electromagnetism, exterior calculus, exterior algebra, differential geometry, exterior derivative, dual product} +keywords = {electromagnetics, exterior calculus, exterior algebra, differential geometry, exterior derivative, dual product} } @Article{lindelletal2000, @@ -86985,7 +87155,7 @@ @Article{lindelletal2000 number = {1}, pages = {19--26}, note = {\doi{10.1049/ip-smt:20000079}}, -keywords = {electromagnetism, stress, continuum mechanics, exterior forms, twisted forms} +keywords = {electromagnetics, stress, continuum mechanics, exterior forms, twisted forms} } @Article{lindelletal2000b, @@ -86997,7 +87167,7 @@ @Article{lindelletal2000b number = {1}, pages = {83--89}, note = {\doi{10.1088/0143-0807/21/1/312}}, -keywords = {electromagnetism, stress, continuum mechanics, exterior forms, twisted forms} +keywords = {electromagnetics, stress, continuum mechanics, exterior forms, twisted forms} } @Article{lindenetal2002, @@ -87998,7 +88168,7 @@ @Article{livens1916 number = {187}, pages = {162--171}, note = {\doi{10.1080/14786441608635551}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{livens1918, @@ -88009,7 +88179,7 @@ @Book{livens1918 address = {Cambridge}, edition = {1}, note = {\url{https://archive.org/details/cu31924004129163}}, -keywords = {continuum thermomechanics, electromagnetism, Poynting vector, energy density, energy flux} +keywords = {continuum thermomechanics, electromagnetics, Poynting vector, energy density, energy flux} } @Article{liveranietal2015, @@ -88507,7 +88677,7 @@ @Article{lorentz1899 volume = {1}, pages = {427--442}, note = {\url{http://www.biodiversitylibrary.org/item/49369}}, -keywords = {electromagnetism, relativity theory} +keywords = {electromagnetics, relativity theory} } @Article{lorentz1904, @@ -88519,7 +88689,7 @@ @Article{lorentz1904 number = {2}, pages = {809--831}, note = {\url{https://archive.org/details/proceedingsofsec62koni}}, -keywords = {electromagnetism, relativity theory} +keywords = {electromagnetics, relativity theory} } @Book{lorentz1907, @@ -88710,7 +88880,7 @@ @Article{loudon2004 number = {11--12}, pages = {1134--1140}, note = {\doi{10.1002/prop.200410183}}, -keywords = {electromagnetism, energy-momentum tensor} +keywords = {electromagnetics, energy-momentum tensor} } @Article{loudonetal1987, @@ -88731,7 +88901,7 @@ @Article{loudonetal2005 volume = {71}, number = {6}, pages = {063802}, -keywords = {electromagnetism, energy-momentum tensor} +keywords = {electromagnetics, energy-momentum tensor} } @Article{loudonetal2012, @@ -88743,7 +88913,7 @@ @Article{loudonetal2012 number = {2143}, pages = {1825--1838}, note = {\doi{10.1098/rspa.2011.0573}}, -keywords = {electromagnetism, stress energy momentum} +keywords = {electromagnetics, stress energy momentum} } @Article{loughlinetal2004, @@ -88905,7 +89075,7 @@ @Article{lowes1974 volume = {337}, number = {1611}, pages = {555--567}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{lowetal1921, @@ -90256,7 +90426,8 @@ @InCollection{mackay1991 title = {Maximum entropy connections: neural networks}, booktitle = {\NoCaseChange{\citein{grandyetal1991}}}, year = {1991}, -pages = {237--244} +pages = {237--244}, +note = {\url{https://www.inference.org.uk/mackay/BayesMisc.html}} } @Article{mackay1992, @@ -90267,7 +90438,7 @@ @Article{mackay1992 volume = {4}, number = {3}, pages = {415--447}, -note = {\url{http://www.inference.phy.cam.ac.uk/mackay/PhD.html}, \doi{10.1162/neco.1992.4.3.415}}, +note = {\url{https://www.inference.phy.cam.ac.uk/mackay/PhD.html}, \doi{10.1162/neco.1992.4.3.415}}, keywords = {Bayesian probability theory, neural networks, deep learning, Ockam factor, hypothesis testing, model comparison} } @@ -90279,7 +90450,7 @@ @Article{mackay1992b volume = {4}, number = {3}, pages = {448--472}, -note = {\url{http://www.inference.phy.cam.ac.uk/mackay/PhD.html}, \doi{10.1162/neco.1992.4.3.448}}, +note = {\url{https://www.inference.phy.cam.ac.uk/mackay/PhD.html}, \doi{10.1162/neco.1992.4.3.448}}, keywords = {Bayesian probability theory, Ockam factor, hypothesis testing} } @@ -90291,7 +90462,7 @@ @Article{mackay1992c volume = {4}, number = {4}, pages = {590--604}, -note = {\url{http://www.inference.phy.cam.ac.uk/mackay/PhD.html}, \doi{10.1162/neco.1992.4.4.590}}, +note = {\url{https://www.inference.phy.cam.ac.uk/mackay/PhD.html}, \doi{10.1162/neco.1992.4.4.590}}, keywords = {Bayesian probability theory, Ockam factor, hypothesis testing} } @@ -90303,7 +90474,7 @@ @Article{mackay1992d volume = {4}, number = {5}, pages = {720--736}, -note = {\url{http://www.inference.phy.cam.ac.uk/mackay/PhD.html}, \doi{10.1162/neco.1992.4.5.720}}, +note = {\url{https://www.inference.phy.cam.ac.uk/mackay/PhD.html}, \doi{10.1162/neco.1992.4.5.720}}, keywords = {Bayesian probability theory, Ockam factor, hypothesis testing, cross-entropy loss} } @@ -90313,7 +90484,7 @@ @PhdThesis{mackay1992e school = {California Institute of Technology}, year = {1992}, address = {Pasadena, USA}, -note = {\url{http://www.inference.phy.cam.ac.uk/mackay/PhD.html}}, +note = {\url{https://www.inference.phy.cam.ac.uk/mackay/PhD.html}}, keywords = {Bayesian probability theory, Ockam factor, hypothesis testing} } @@ -90321,7 +90492,7 @@ @Misc{mackay1994 author = {David J. C. MacKay}, title = {Models for Dice Factories and Amino Acid Probability Vectors}, year = {1994}, -note = {\url{http://www.inference.org.uk/mackay/amino.ps.gz}, \url{http://www.inference.org.uk/mackay/amino.pdf}}, +note = {\url{https://www.inference.org.uk/mackay/BayesLang.html}}, keywords = {Dirichlet distribution} } @@ -90334,7 +90505,7 @@ @Book{mackay1995_r2005 edition = {Version~7.2 (4th pr.)}, note = {\url{https://www.inference.org.uk/itila/book.html}. First publ.\ 1995}, keywords = {probability theory, communication theory, maximum entropy, decision theory}, -mynote = {\enquote{The posterior probability distribution (3.4) represents the unique and complete solution to the problem. There is no need to invent `estimators'; nor do we need to invent criteria for comparing alternative estimators with each other. Whereas orthodox statisticians offer twenty ways of solving a problem, and another twenty different criteria for deciding which of these solutions is the best, Bayesian statistics only offers one answer to a well-posed problem.} \sect~3.1 p.~50}, +mynote = {\enquote{There are two principal paradigms for statistics: sampling theory and Bayesian inference. In sampling theory (also known as `frequentist' or orthodox statistics), one invents estimators of quantities of interest and then chooses between those estimators using some criterion measuring their sampling properties; there is no clear principle for deciding which criterion to use to measure the performance of an estimator; nor, for most criteria, is there any systematic procedure for the construction of optimal estimators. In Bayesian inference, in contrast, once we have made explicit all our assumptions about the model and the data, our inferences are mechanical. Whatever question we wish to pose, the rules of probability theory give a unique answer which consistently takes into account all the given information. Human-designed estimators and confidence intervals have no role in Bayesian inference; human input only enters into the important tasks of designing the hypothesis space (that is, the specification of the model and all its probability distributions), and figuring out how to do the computations that implement inference in that space. The answers to our questions are probability distributions over the quantities of interest. We often find that the estimators of sampling theory emerge automatically as modes or means of these posterior distributions when we choose a simple hypothesis space and turn the handle of Bayesian inference.} \sect~24.1 p.~320. \enquote{The posterior probability distribution (3.4) represents the unique and complete solution to the problem. There is no need to invent `estimators'; nor do we need to invent criteria for comparing alternative estimators with each other. Whereas orthodox statisticians offer twenty ways of solving a problem, and another twenty different criteria for deciding which of these solutions is the best, Bayesian statistics only offers one answer to a well-posed problem.} \sect~3.1 p.~50}, origdate = {1995} } @@ -90346,7 +90517,7 @@ @Article{mackay1995b volume = {354}, number = {1}, pages = {73--80}, -note = {\url{http://www.inference.org.uk/mackay/ch_learning.pdf}}, +note = {\doi{10.1016/0168-9002(94)00931-7}, \url{https://www.inference.org.uk/mackay/BayesLang.html}}, keywords = {Dirichlet distribution} } @@ -90356,7 +90527,7 @@ @InCollection{mackay1996 booktitle = {\NoCaseChange{\citein{heidbreder1996}}}, year = {1996}, pages = {43--59}, -note = {\doi{10.1007/978-94-015-8729-7_2}, \url{https://bayes.wustl.edu/MacKay/alpha.pdf}}, +note = {\doi{10.1007/978-94-015-8729-7_2}, \url{https://bayes.wustl.edu/MacKay/alpha.pdf}, \url{https://www.inference.org.uk/mackay/BayesComp.html}}, keywords = {Laplace approximation, Bayesian probability theory} } @@ -90366,7 +90537,7 @@ @InCollection{mackay1996b booktitle = {\NoCaseChange{\citein{skillingetal1996}}}, year = {1996}, pages = {259--268}, -note = {\doi{10.1007/978-94-009-0107-0_28}, \url{http://www.inference.org.uk/mackay/density.pdf}}, +note = {\doi{10.1007/978-94-009-0107-0_28}, \url{https://www.inference.org.uk/mackay/BayesLang.html}}, keywords = {Dirichlet model} } @@ -90375,7 +90546,7 @@ @TechReport{mackay1997 title = {Introduction to {Gaussian} Processes}, institution = {Cambridge University}, year = {1997}, -note = {\url{http://www.inference.org.uk/mackay/BayesGP.html}}, +note = {\url{https://www.inference.org.uk/mackay/BayesGP.html}}, keywords = {Bayesian probability theory, neural networks} } @@ -90385,7 +90556,7 @@ @TechReport{mackay2004 institution = {Cambridge University}, year = {2004}, address = {Cambridge}, -note = {\url{http://www.inference.org.uk/mackay/abstracts/approx.html}}, +note = {\url{https://www.inference.org.uk/mackay/BayesNets.html}}, keywords = {machine learning, Bayesian probability theory, test set, cross-validation} } @@ -90393,7 +90564,7 @@ @Misc{mackay2004b author = {David J. C. MacKay}, title = {Bayesian methods for neural networks -- {FAQ}}, year = {2004}, -note = {\url{http://www.inference.org.uk/mackay/Bayes_FAQ.html}}, +note = {\url{https://www.inference.org.uk/mackay/Bayes_FAQ.html}}, keywords = {machine learning, Bayesian probability theory, test set, cross-validation} } @@ -91599,7 +91770,7 @@ @Article{mandeletal1965 volume = {37}, number = {2}, pages = {231--287}, -keywords = {quantum field theory, quantum optics, modes, electromagnetism} +keywords = {quantum field theory, quantum optics, modes, electromagnetics} } @Book{mandeletal1978, @@ -91832,7 +92003,7 @@ @Article{mansuripur2004 volume = {12}, number = {22}, pages = {5375--5401}, -keywords = {electromagnetism, energy-momentum tensor} +keywords = {electromagnetics, energy-momentum tensor} } @Article{mansuripuretal2010, @@ -91843,7 +92014,7 @@ @Article{mansuripuretal2010 volume = {283}, number = {19}, pages = {3557--3563}, -keywords = {electromagnetism, force} +keywords = {electromagnetics, force} } @InCollection{manthe2002, @@ -91954,7 +92125,7 @@ @Article{marcus1941 number = {4}, pages = {225--226}, note = {\doi{10.1119/1.1991683}}, -keywords = {electromagnetism, Poynting vector} +keywords = {electromagnetics, Poynting vector} } @Article{marcusetal2004, @@ -93581,7 +93752,7 @@ @Article{maugin1971 number = {4}, pages = {275--302}, note = {\url{http://www.numdam.org/item/AIHPA_1971__15_4_275_0/}}, -keywords = {continuum thermomechanics, electromagnetism, general relativity, constitutive equations} +keywords = {continuum thermomechanics, electromagnetics, general relativity, constitutive equations} } @Article{maugin1971b, @@ -93615,7 +93786,7 @@ @Article{maugin1972 number = {6}, pages = {786--802}, note = {\doi{10.1088/0305-4470/5/6/004}. See also \citebi{maugin1973b,maugin1974d}}, -keywords = {electromagnetism, stress, energy, momentum} +keywords = {electromagnetics, stress, energy, momentum} } @Article{maugin1973, @@ -93638,7 +93809,7 @@ @Article{maugin1973b number = {3, 11}, pages = {306--321, 1647--1666}, note = {\doi{10.1088/0305-4470/6/3/006}, \doi{10.1088/0305-4470/6/11/005}. See also \citebi{maugin1972,maugin1974d}}, -keywords = {electromagnetism, stress, energy, momentum} +keywords = {electromagnetics, stress, energy, momentum} } @InCollection{maugin1974, @@ -93683,7 +93854,7 @@ @Article{maugin1974d number = {7}, pages = {818--837}, note = {\doi{10.1088/0305-4470/7/7/008}. See also \citebi{maugin1972,maugin1973b}}, -keywords = {electromagnetism, stress, energy, momentum} +keywords = {electromagnetics, stress, energy, momentum} } @InCollection{maugin1976, @@ -93764,7 +93935,7 @@ @Article{maugin1978f number = {1}, pages = {11--26}, note = {\doi{10.1016/0016-0032(78)90120-5}}, -keywords = {continuum mechanics, general relativity, polar media, constitutive equations, electromagnetism, electromagnetic four-stress} +keywords = {continuum mechanics, general relativity, polar media, constitutive equations, electromagnetics, electromagnetic four-stress} } @Article{maugin1980, @@ -93776,7 +93947,7 @@ @Article{maugin1980 number = {8}, pages = {1163--1170}, note = {\doi{10.1139/p80-155}}, -keywords = {electromagnetism, stress, energy, momentum} +keywords = {electromagnetics, stress, energy, momentum} } @Book{maugin1988, @@ -93787,7 +93958,7 @@ @Book{maugin1988 volume = {33}, series = {North-Holland series in applied mathematics and mechanics}, address = {Amsterdam}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{maugin1992, @@ -93902,7 +94073,7 @@ @Article{mauginetal1977 volume = {16}, number = {1}, pages = {101--147}, -keywords = {electromagnetism, continuum thermomechanics, Clausius-Duhem} +keywords = {electromagnetics, continuum thermomechanics, Clausius-Duhem} } @Book{mauginetal2002, @@ -93987,7 +94158,7 @@ @Article{maxwell1855b volume = {10}, pages = {27--83}, note = {First read 1855--1856; repr.\ in \citebi{maxwell1890_r2010} doc.~VIII pp.~155--229}, -keywords = {electromagnetism, differential forms}, +keywords = {electromagnetics, differential forms}, mynote = {\enquote{The results of this simplification may take the form of a purely mathematical formula or of a physical hypothesis. In the first case we entirely lose sight of the phenomena to be explained; and though we may trace out the consequences of given laws, we can never obtain more extended views of the connexions of the subject}, p.~155.}, origdate = {1855} } @@ -94024,7 +94195,7 @@ @Article{maxwell1865 volume = {155}, pages = {459--513}, note = {Repr.\ in \citebi{maxwell1890_r2010} doc.~XXV pp.~526--597, and as \citebi{maxwell1865_r1996}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{maxwell1865_r1996, @@ -94035,7 +94206,7 @@ @Book{maxwell1865_r1996 series = {The Torrance collection}, address = {Eugene, USA}, note = {Ed.\ and introduced by Thomas F. Torrance, with an appreciation by Albert Einstein; repr.\ of \citebi{maxwell1865}}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, origdate = {1865} } @@ -94069,7 +94240,7 @@ @Article{maxwell1870 volume = {40}, pages = {1--9}, note = {\url{https://archive.org/details/reportofbritisha71brit}. Repr.\ in \citebi{maxwell1890b_r2010} doc.~XLI pp.~215--229}, -keywords = {Maxwell's equations, electromagnetism, electrodynamics}, +keywords = {Maxwell's equations, electromagnetics, electrodynamics}, mynote = {See also \citebi{dyson2007}. \enquote{We form a theory from these partial data, and we ascribe any deviation of the actual phenomena from this theory to disturbing causes. At the same time we confess that what we call disturbing causes are simply those parts of the true circumstances which we do not know or have neglected, and we endeavour in future to take account of them. We thus acknowledge that the so-called disturbance is a mere figment of the mind, not a fact of nature, and that in natural action there is no disturbance} p.~9} } @@ -94126,20 +94297,20 @@ @Book{maxwell1873 series = {Clarendon Press series}, address = {Oxford}, edition = {1}, -note = {\url{https://gallica.bnf.fr/ark:/12148/bpt6k951756}; 2nd ed.\ \citebi{maxwell1873_r1881} in \citebi{maxwell1873_r1881}}, -keywords = {electromagnetism} +note = {\url{https://gallica.bnf.fr/ark:/12148/bpt6k951756}; 3rd ed.\ \citebi{maxwell1873_r1954}}, +keywords = {electromagnetics} } -@Book{maxwell1873_r1881, +@Book{maxwell1873_r1954, author = {Maxwell, (Clerk Maxwell), James}, title = {A Treatise on Electricity and Magnetism. Vol.~I}, -publisher = {Oxford University Press}, -year = {1881}, -series = {Clarendon Press series}, -address = {Oxford}, -edition = {2}, -note = {Last edition worked upon by Maxwell. First publ.\ 1873. \url{https://archive.org/details/treatiseonelectr01maxwrich}}, -keywords = {electromagnetism}, +publisher = {Dover}, +year = {1954}, +series = {Dover books on physics}, +address = {New York}, +edition = {3}, +note = {Ed.\ and annotated by W.~D. Niven and J.~J. Thomson. First publ.\ 1873. \url{https://archive.org/details/treatiseonelectr01maxwrich}}, +keywords = {electromagnetics}, mynote = {\enquote{It is of great advantage to the student of any subject to read the original memoirs on that subject, for science is always most completely assimilated when it is in the nascent state}, Preface to first ed. \enquote{I am convinced, however, that the introduction of the ideas, as distinguished from the operations and methods of Quaternions, will be of great use to us in the study of all parts of our subject, and especially in electrodynamics, where we have to deal with a number of physical quantities, the relations of which to each other can be expressed far more simply by a few words of Hamilton's, than by the ordinary equations.} Art.~10}, origdate = {1873} } @@ -94152,20 +94323,20 @@ @Book{maxwell1873b series = {Clarendon Press series}, address = {Oxford}, edition = {1}, -note = {\url{https://gallica.bnf.fr/ark:/12148/bpt6k95176j}; 2nd ed.\ \citebi{maxwell1873b_r1881} in \citebi{maxwell1873b_r1881}}, -keywords = {electromagnetism} +note = {\url{https://gallica.bnf.fr/ark:/12148/bpt6k95176j}; 3rd ed.\ \citebi{maxwell1873b_r1954}}, +keywords = {electromagnetics} } -@Book{maxwell1873b_r1881, +@Book{maxwell1873b_r1954, author = {Maxwell, (Clerk Maxwell), James}, title = {A Treatise on Electricity and Magnetism. Vol.~II}, -publisher = {Oxford University Press}, -year = {1881}, -series = {Clarendon Press series}, -address = {Oxford}, -edition = {2}, -note = {Last edition worked upon by Maxwell. First publ.\ 1873. \url{https://archive.org/details/treatiseonelect02maxwrich}}, -keywords = {electromagnetism}, +publisher = {Dover}, +year = {1954}, +series = {Dover histories, biographies and classics of mathematics and the physical sciences}, +address = {New York}, +edition = {3}, +note = {Ed.\ and annotated by W.~D. Niven and J.~J. Thomson. First publ.\ 1873. \url{https://archive.org/details/treatiseonelect02maxwrich}}, +keywords = {electromagnetics}, origdate = {1873} } @@ -94295,7 +94466,7 @@ @Book{maxwell1881 series = {Clarendon Press series}, address = {Oxford}, note = {Ed.\ by William Garnett}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{maxwell1890_r2010, @@ -94810,6 +94981,15 @@ @Article{mcdermott1976 mynote = {\enquote{Though a stranger to the trees, he can talk with confidence about the forest.} p.~8 left. \enquote{He seems to have solved everything already; so the report says, yet there is no tangible evidence of it besides the report itself.} p.~8 right. \enquote{However, to say anything good about anyone is beyond the scope of this paper.} p.~9 left} } +@Misc{mcdonald1979_r2015, +author = {Kirk T. McDonald}, +title = {The Force on an Antenna Array}, +year = {2015}, +note = {\url{http://kirkmcd.princeton.edu/examples}. First publ.\ 1979}, +keywords = {electromagnetics, energy-momentum-stress}, +origdate = {1979} +} + @Article{mcdonald1984, author = {James B. McDonald}, title = {Some Generalized Functions for the Size Distribution of Income}, @@ -94833,12 +95013,30 @@ @Article{mcdonald1998 note = {\doi{10.1119/1.19069}, \url{http://kirkmcd.princeton.edu/examples}. See \citebi{awatietal1996,helrich1998,mathar1998,wongetal1998}} } -@Misc{mcdonald2015, +@Misc{mcdonald2003, +author = {Kirk T. McDonald}, +title = {Hidden Momentum in a Coaxial Cable}, +year = {2003}, +note = {\arxiveprint{physics/0312028}}, +keywords = {electromagnetics, energy-momentum-stress} +} + +@Misc{mcdonald2006_r2019, +author = {Kirk T. McDonald}, +title = {Four Expressions for Electromagnetic Field Momentum}, +year = {2019}, +note = {\url{http://kirkmcd.princeton.edu/examples}. First publ.\ 2006}, +keywords = {electromagnetics, energy-momentum-stress}, +origdate = {2006} +} + +@Misc{mcdonald2015_r2017, author = {Kirk T. McDonald}, title = {Bibliography on the {Abraham-Minkowski} Debate}, -year = {2015}, -note = {\url{http://kirkmcd.princeton.edu/examples}}, -keywords = {electromagnetism} +year = {2017}, +note = {\url{http://kirkmcd.princeton.edu/examples}. First publ.\ 2015}, +keywords = {electromagnetics, energy-momentum-stress}, +origdate = {2015} } @Misc{mcdonald2022, @@ -95041,7 +95239,7 @@ @Article{mcintyre1981 year = {1981}, volume = {106}, pages = {331--347}, -keywords = {electromagnetism, energy-momentum tensor} +keywords = {electromagnetics, energy-momentum tensor} } @InCollection{mcintyre2003, @@ -96571,6 +96769,18 @@ @Book{mikami1980_t1985 origdate = {1980} } +@Article{mikura1976, +author = {Ziro Mikura}, +title = {Variational formulation of the electrodynamics of fluids and its application to the radiation pressure problem}, +journal = pra, +year = {1976}, +volume = {13}, +number = {6}, +pages = {2265--2275}, +note = {\doi{10.1103/PhysRevA.13.2265}}, +keywords = {electromagnetics, energy-momentum-stress, Abraham-Minkowski, general relativity} +} + @Misc{milakovic2003, author = {Mishael Milakovi{\'c}}, title = {Maximum Entropy Power Laws: An Application to the Tail of Wealth Distributions}, @@ -96989,7 +97199,7 @@ @Article{milonnietal1973 volume = {31}, number = {15}, pages = {958--960}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Article{milonnietal2010, @@ -97001,7 +97211,7 @@ @Article{milonnietal2010 number = {4}, pages = {519--553}, note = {\doi{10.1364/AOP.2.000519}}, -keywords = {electromagnetism, energy, momentum, stress} +keywords = {electromagnetics, energy, momentum, stress} } @Misc{milton2004, @@ -97219,7 +97429,7 @@ @Article{minkowski1908 volume = {1908}, pages = {53--111}, note = {Repr.\ in \citebi{minkowski1908_r1910}. See also \citebi{minkowskietal1910}}, -keywords = {the fundamental equations for the electromagnetic effects in moving bodies, electromagnetism, continuum mechanics, relativity theory, proper time} +keywords = {the fundamental equations for the electromagnetic effects in moving bodies, electromagnetics, continuum mechanics, relativity theory, proper time} } @Article{minkowski1908_r1910, @@ -97230,7 +97440,7 @@ @Article{minkowski1908_r1910 volume = {68}, number = {4}, pages = {472--525}, -keywords = {the fundamental equations for the electromagnetic effects in moving bodies, electromagnetism, continuum mechanics, relativity theory, proper time}, +keywords = {the fundamental equations for the electromagnetic effects in moving bodies, electromagnetics, continuum mechanics, relativity theory, proper time}, origdate = {1908} } @@ -97243,7 +97453,7 @@ @Article{minkowskietal1910 number = {4}, pages = {526--551}, note = {See also \citebi{minkowski1910}}, -keywords = {the fundamental equations for the electromagnetic effects in moving bodies from the point of view of the electron theory, electromagnetism, continuum mechanics, relativity theory} +keywords = {the fundamental equations for the electromagnetic effects in moving bodies from the point of view of the electron theory, electromagnetics, continuum mechanics, relativity theory} } @Article{minlosetal2000, @@ -98082,7 +98292,7 @@ @Book{moon1984 publisher = {Wiley}, year = {1984}, address = {New York}, -keywords = {continuum mechanics, electromagnetism} +keywords = {continuum mechanics, electromagnetics} } @Article{moonetal2001, @@ -98125,7 +98335,7 @@ @Article{moorcroft1969 number = {2}, pages = {221}, note = {\doi{10.1119/1.1975460}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{moorcroft1970, @@ -98137,7 +98347,7 @@ @Article{moorcroft1970 number = {3}, pages = {376--377}, note = {\doi{10.1119/1.1976329}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{moore1920, @@ -98631,7 +98841,7 @@ @Article{morozovetal1966 year = {1966}, volume = {2}, pages = {1--101}, -keywords = {general relativity, electromagnetism, Faraday's lines of force} +keywords = {general relativity, electromagnetics, Faraday's lines of force} } @Article{morozovetal1966b, @@ -98641,7 +98851,7 @@ @Article{morozovetal1966b year = {1966}, volume = {2}, pages = {201--297}, -keywords = {general relativity, electromagnetism, Faraday's lines of force} +keywords = {general relativity, electromagnetics, Faraday's lines of force} } @Article{morris1975, @@ -98894,7 +99104,7 @@ @Article{mosesetal1986 volume = {34}, number = {2}, pages = {188--196}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{mosesetal1990, @@ -98905,7 +99115,7 @@ @Article{mosesetal1990 volume = {50}, number = {5}, pages = {1325--1340}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{mosheetal2003, @@ -100185,7 +100395,7 @@ @Article{murnaghan1948 volume = {54}, number = {1}, pages = {88--103}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{murphy1979, @@ -100873,7 +101083,7 @@ @Misc{naumovaetal2009 title = {Comment on ``{Dynamics of a Charged Particle}'' by {F. Rohrlich}}, year = {2009}, note = {\arxiveprint{0904.2377}. See \citebi{rohrlich2008}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{navarroetal1968, @@ -101077,7 +101287,18 @@ @Article{needham1993 year = {1993}, volume = {100}, number = {2}, -pages = {119--137} +pages = {119--137}, +note = {\doi{10.2307/2323768}} +} + +@Book{needham2021, +author = {Tristan Needham}, +title = {Visual Differential Geometry and Forms: A Mathematical Drama in Five Acts}, +publisher = {Princeton University Press}, +year = {2021}, +address = {Princeton and Oxford}, +note = {\doi{10.1515/9780691219899}, \doi{10.2307/j.ctv1cmsmx5}}, +keywords = {differential forms, general relativity} } @Article{neelinetal1994, @@ -101217,7 +101438,7 @@ @Book{nelson1979 publisher = {Wiley}, year = {1979}, address = {New York}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Book{nelson1985, @@ -101319,7 +101540,7 @@ @Article{nelson1991 volume = {44}, number = {6}, pages = {3985--3996}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @InCollection{nelson1999_r2004, @@ -102011,7 +102232,7 @@ @Article{nicholsetal1901 volume = {13}, number = {5}, pages = {307--320}, -keywords = {light pressure, electromagnetism} +keywords = {light pressure, electromagnetics} } @Book{nicholson1983, @@ -102758,7 +102979,7 @@ @Article{nordstroem1923 volume = {I}, pages = {33}, note = {\url{https://archive.org/details/commentationesph01fins/page/n477}}, -keywords = {on Hamilton's principle for material bodies in the general theory of electromagnetism, elasticity, continuum mechanics} +keywords = {on Hamilton's principle for material bodies in the general theory of electromagnetics, elasticity, continuum mechanics} } @Article{nordstroem1923b, @@ -103268,7 +103489,7 @@ @Article{obukhov2022 number = {4}, pages = {1}, note = {\doi{10.55730/1300-0101.2719}}, -keywords = {electromagnetism, continuum mechanics, Poynting vector, Abraham controversy} +keywords = {electromagnetics, continuum mechanics, Poynting vector, Abraham-Minkowski} } @Article{obukhovetal1999, @@ -103280,7 +103501,7 @@ @Article{obukhovetal1999 number = {4}, pages = {466--470}, note = {See also \citebi{hehletal1999b}}, -keywords = {general relativity, electromagnetism, twisted differential forms} +keywords = {general relativity, electromagnetics, twisted differential forms} } @Article{obukhovetal2003, @@ -103290,7 +103511,9 @@ @Article{obukhovetal2003 year = {2003}, volume = {311}, number = {4--5}, -pages = {277--284} +pages = {277--284}, +note = {\doi{10.1016/S0375-9601(03)00503-6}}, +keywords = {general relativity, energy-momentum-stress, Abraham-Minkowski} } @Article{obukhovetal2005, @@ -103301,7 +103524,7 @@ @Article{obukhovetal2005 volume = {341}, number = {5--6}, pages = {357--365}, -keywords = {electromagnetism, differential forms} +keywords = {electromagnetics, differential forms} } @Misc{obukhovetal2007, @@ -103309,7 +103532,19 @@ @Misc{obukhovetal2007 title = {On the boundary-value problems and the validity of the {Post} constraint in modern electromagnetism}, year = {2007}, note = {\arxiveprint{0707.1112}}, -keywords = {electromagnetism, differential forms} +keywords = {electromagnetics, differential forms} +} + +@Article{obukhovetal2007b, +author = {Yuri N. Obukhov and Friedrich W. Hehl}, +title = {Electrodynamics of moving magnetoelectric media: Variational approach}, +journal = pla, +year = {2007}, +volume = {371}, +number = {1--2}, +pages = {11--19}, +note = {\doi{10.1016/j.physleta.2007.08.026}}, +keywords = {general relativity, energy-momentum-stress, Abraham-Minkowski} } @Article{obukhovetal2014, @@ -103727,7 +103962,7 @@ @Article{ohanian1986 number = {6}, pages = {500--505}, note = {\doi{10.1119/1.14580}}, -keywords = {electromagnetism, rotational momentum} +keywords = {electromagnetics, rotational momentum} } @Article{ohanian2004, @@ -104650,7 +104885,7 @@ @Article{ott1952 number = {1}, pages = {33--44}, note = {\doi{10.1002/andp.19524460107}}, -keywords = {on the energy-impulse tensor of the Maxwell-Minkowski electrodynamics, electromagnetism, Abraham controversy} +keywords = {on the energy-impulse tensor of the Maxwell-Minkowski electrodynamics, electromagnetics, Abraham-Minkowski} } @Article{ottenetal2010, @@ -104964,7 +105199,7 @@ @Article{page1912 year = {1912}, volume = {34}, pages = {57--68}, -keywords = {special relativity, electromagnetism} +keywords = {special relativity, electromagnetics} } @Article{page1916, @@ -104986,7 +105221,7 @@ @Book{page1928_r1958 address = {Princeton, USA}, edition = {3rd ed., 3rd pr.}, note = {First publ.\ 1928}, -keywords = {electromagnetism, electromagnetic stress}, +keywords = {electromagnetics, electromagnetic stress}, mynote = {\enquote{we must interpret \ldots\ as a force exerted by matter on the electromagnetic field. The fact that this force appears as a time derivative allows us to interpret \ldots\ as the momentum of the field }, \sect~158, pp.~534--535. \sects~157--158: Electromagnetic fields can sustain forces. See \citebi[p.~99]{ericksen2007}}, origdate = {1928} } @@ -105000,7 +105235,7 @@ @Article{page1977 number = {10}, pages = {978--980}, note = {\doi{10.1119/1.10862}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{page1993, @@ -105021,7 +105256,7 @@ @Article{pageetal1945 volume = {13}, number = {3}, pages = {141--147}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{pageetal1992, @@ -105400,7 +105635,7 @@ @Book{panofskyetal1955_r1962 address = {Reading, USA}, edition = {2}, note = {First publ.\ 1955}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, origdate = {1955} } @@ -105766,7 +106001,7 @@ @Article{parker1974 volume = {189}, pages = {563--568}, note = {\doi{10.1086/152835}. See also \citebi{parker1974b}}, -keywords = {electromagnetism, Faraday's lines of force} +keywords = {electromagnetics, Faraday's lines of force} } @Article{parker1974b, @@ -105777,7 +106012,7 @@ @Article{parker1974b volume = {190}, pages = {429--436}, note = {\doi{10.1086/152894}. See also \citebi{parker1974}}, -keywords = {electromagnetism, Faraday's lines of force} +keywords = {electromagnetics, Faraday's lines of force} } @Article{parker1975, @@ -105799,7 +106034,7 @@ @Article{parker1979 volume = {230}, pages = {905--913, 914--923}, note = {\doi{10.1086/157150}}, -keywords = {electromagnetism, Faraday's lines of force} +keywords = {electromagnetics, Faraday's lines of force} } @Misc{parker2006, @@ -106020,7 +106255,7 @@ @Book{parrott1987 year = {1987}, address = {New York}, note = {\doi{10.1007/978-1-4612-4684-8}}, -keywords = {differential forms, electromagnetism} +keywords = {differential forms, electromagnetics} } @Book{parry1984, @@ -106054,6 +106289,18 @@ @Article{parsons1974 keywords = {logic, truth, semantics} } +@Article{partanenetal2021, +author = {Mikko Partanen and Jukka Tulkki}, +title = {Covariant theory of light in a dispersive medium}, +journal = pra, +year = {2021}, +volume = {104}, +number = {2}, +pages = {023510}, +note = {\doi{10.1103/PhysRevA.104.023510}}, +keywords = {energy-momentum-stress, electromagnetics, Abraham-Minkowski} +} + @Misc{parthasarathy2004, author = {K. R. Parthasarathy}, title = {Extremal quantum states in coupled systems}, @@ -106338,7 +106585,7 @@ @InCollection{pauli1920 year = {1920}, chapter = {\chapb~19}, pages = {539--775}, -keywords = {theory of relativity, energy-momentum-stress tensor, electromagnetism} +keywords = {theory of relativity, energy-momentum-stress tensor, electromagnetics} } @Book{pauli1921_r2000, @@ -106547,7 +106794,7 @@ @Article{pawlowskietal2006 volume = {73}, number = {4}, pages = {042111}, -keywords = {modes, electromagnetism} +keywords = {modes, electromagnetics} } @Book{peacock2008, @@ -107050,8 +107297,8 @@ @Article{peierls1976 volume = {347}, number = {1651}, pages = {475--491}, -note = {See also \citebi{peierls1977}}, -keywords = {electromagnetism, energy-momentum tensor} +note = {\doi{10.1098/rspa.1976.0012}. See also \citebi{peierls1977}}, +keywords = {electromagnetics, energy-momentum-stress, general relativity, Abraham-Minkowski} } @Article{peierls1977, @@ -107062,8 +107309,8 @@ @Article{peierls1977 volume = {355}, number = {1681}, pages = {141--151}, -note = {See also \citebi{peierls1976}}, -keywords = {electromagnetism, energy-momentum tensor} +note = {\doi{10.1098/rspa.1977.0091}. See also \citebi{peierls1976}}, +keywords = {electromagnetics, energy-momentum-stress, general relativity, Abraham-Minkowski} } @Book{peierls1979, @@ -107075,6 +107322,18 @@ @Book{peierls1979 address = {Princeton} } +@Article{peierls1983, +author = {Rudolf E. Peierls}, +title = {The Momentum of a Sound Pulse in a Slightly Dispersive Medium}, +journal = prsla, +year = {1983}, +volume = {390}, +number = {1798}, +pages = {1--12}, +note = {\doi{10.1098/rspa.1983.0119}}, +keywords = {continuum mechanics, energy-momentum-stress} +} + @Article{peirce1868, author = {Charles Sanders Peirce}, title = {On an Improvement in {Boole's} Calculus of Logic}, @@ -107278,7 +107537,7 @@ @Book{penfieldetal1967 number = {40}, series = {Research monographs}, address = {Cambridge, USA}, -keywords = {energy-momentum tensor, electromagnetism, energy density, continuum electromagnetomechanics, continuum thermomechanics, continuum theory of brain}, +keywords = {energy-momentum tensor, electromagnetics, energy density, continuum electromagnetomechanics, continuum thermomechanics, continuum theory of brain}, mynote = {\url{https://archive.org/details/Electrodyn_00_Penf}} } @@ -107940,7 +108199,7 @@ @InCollection{peres1997b volume = {194}, series = {Boston studies in the philosophy of science}, pages = {191--196}, -keywords = {quantum theory, entanglement, modes, electromagnetism} +keywords = {quantum theory, entanglement, modes, electromagnetics} } @Article{peres1998, @@ -108342,7 +108601,7 @@ @Article{pershan1963 volume = {130}, number = {3}, pages = {919--929}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{pershan1967, @@ -108353,7 +108612,7 @@ @Article{pershan1967 volume = {38}, number = {3}, pages = {1482--1490}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{persson2015, @@ -108446,7 +108705,7 @@ @Article{peters1985 number = {12}, pages = {1165--1169}, note = {See also \citebi{hernandezetal1988,peters1988}}, -keywords = {electromagnetism, relativity theory} +keywords = {electromagnetics, relativity theory} } @Article{peters1986, @@ -108469,7 +108728,7 @@ @Article{peters1988 number = {1}, pages = {92}, note = {See \citebi{peters1985,hernandezetal1988}}, -keywords = {electromagnetism, relativity theory} +keywords = {electromagnetics, relativity theory} } @Article{petersenetal1999, @@ -108741,7 +109000,7 @@ @Article{pfeiferetal2007 number = {4}, pages = {1197--1216}, note = {\doi{10.1103/RevModPhys.79.1197}. See also erratum \citebi{pfeiferetal2007_e2009}}, -keywords = {energy stress} +keywords = {energy-momentum-stress, electromagnetics, general relativity, Abraham-Minkowski} } @Article{pfeiferetal2007_e2009, @@ -108753,7 +109012,19 @@ @Article{pfeiferetal2007_e2009 number = {1}, pages = {443}, note = {\doi{10.1103/RevModPhys.81.443}. See \citebi{pfeiferetal2007}}, -keywords = {energy stress} +keywords = {energy-momentum-stress, electromagnetics, general relativity, Abraham-Minkowski} +} + +@Article{pfeiferetal2009, +author = {Robert N. C. Pfeifer and Timo A. Nieminen and Norman R. Heckenberg and and Rubinsztein-Dunlop, Halina}, +title = {Constraining validity of the {Minkowski} energy-momentum tensor}, +journal = pra, +year = {2009}, +volume = {79}, +number = {2}, +pages = {023813, 029903}, +note = {\doi{10.1103/PhysRevA.79.023813}, \doi{10.1103/PhysRevA.79.029903}}, +keywords = {energy-momentum-stress, electromagnetics, general relativity, Abraham-Minkowski} } @Article{pfeifferetal2003, @@ -109421,7 +109692,7 @@ @Article{pitteri1973 number = {1}, pages = {144--163}, note = {\doi{10.1007/BF02832646}}, -keywords = {special relativity, general relativity, continuum mechanics, electromagnetism} +keywords = {special relativity, general relativity, continuum mechanics, electromagnetics} } @Article{pitteri1975, @@ -109661,7 +109932,7 @@ @Article{planck1908 number = {23}, pages = {828--830}, note = {With discussion. \url{https://archive.org/details/physikalischeze01unkngoog}}, -keywords = {remarks on the principle of action and reaction in general dynamics, momentum, energy flux, electromagnetism, relativity theory, equivalence of momentum and energy flux} +keywords = {remarks on the principle of action and reaction in general dynamics, momentum, energy flux, electromagnetics, relativity theory, equivalence of momentum and energy flux} } @Article{planck1908b, @@ -109673,7 +109944,7 @@ @Article{planck1908b number = {18--20}, pages = {728--732}, note = {\url{https://archive.org/details/verhandlungende39unkngoog}}, -keywords = {remarks on the principle of action and reaction in general dynamics, momentum, energy flux, electromagnetism, relativity theory, equivalence of momentum and energy flux} +keywords = {remarks on the principle of action and reaction in general dynamics, momentum, energy flux, electromagnetics, relativity theory, equivalence of momentum and energy flux} } @Article{planck1916, @@ -110190,8 +110461,8 @@ @Article{poincare1906b year = {1906}, volume = {XXI}, pages = {129--175}, -note = {\url{http://echo.mpiwg-berlin.mpg.de/content/space/space/poincare_dynamique_1906}}, -keywords = {on the dynamics of the electron} +note = {\url{https://zenodo.org/records/1428444}, \doi{10.1007/BF03013466}. Transl.\ in \citebi[\chap~5]{popp2020}, \doi{10.1007/978-3-030-48039-4_5}}, +keywords = {on the dynamics of the electron, electromagnetics, general relativity, energy-momentum-stress} } @Book{poincare1907, @@ -110280,6 +110551,17 @@ @Book{poincare1934 address = {Paris} } +@Article{poincelot1967, +author = {Paul Poincelot}, +title = {\langnohyph{Sur l'expression de la densit{\'e} d'{\'e}nergie {\'e}lectromagn{\'e}tique. {Sur} le tenseur {\'e}lectrodynamique. {Sur} la sym{\'e}trie du tenseur {\'e}lectrodynamique. {Sur} le tenseur d'impulsion-{\'e}nergie {\'e}lectromagn{\'e}tique}}, +journal = crasb, +year = {1967}, +volume = {264}, +pages = {1064--1066, 1179--1181, 1225--1226, 1560--1562}, +note = {\url{https://gallica.bnf.fr/ark:/12148/bpt6k6224818x}, \url{https://gallica.bnf.fr/ark:/12148/bpt6k6531746z}}, +keywords = {On the expression of electromagnetic energy density. On the electrodynamic tensor. On the symmetry of the electrodynamic tensor. On the electromagnetic momentum-energy tensor. electromagnetics, Abraham-Minkowski, general relativity} +} + @Article{pointeretal1998, author = {M. R. Pointer and G. G. Attridge}, title = {The number of discernible colours}, @@ -110859,6 +111141,15 @@ @Article{popowiczetal2015 note = {\doi{10.1093/mnras/stv1320}} } +@Book{popp2020, +author = {Bruce D. Popp}, +title = {Henri Poincar{\'e}: Electrons to Special Relativity\subtitleproc{: Translation of Selected Papers and Discussion}}, +publisher = {Springer}, +year = {2020}, +address = {Cham}, +note = {\doi{10.1007/978-3-030-48039-4}} +} + @Article{popper1934, author = {Karl Popper}, title = {\langnohyph{{Zur Kritik der Ungenauigkeitsrelationen}}}, @@ -111435,7 +111726,7 @@ @Article{post1953 number = {1}, pages = {55--60}, note = {\doi{10.1121/1.1907008}}, -keywords = {stress-energy tensor, continuum mechanics, electromagnetism, continuum mechanics} +keywords = {stress-energy tensor, continuum mechanics, electromagnetics, continuum mechanics} } @Article{post1960, @@ -111447,7 +111738,7 @@ @Article{post1960 number = {5}, pages = {1113--1118}, note = {\doi{10.1103/PhysRev.118.1113}}, -keywords = {differential forms, electromagnetism, twisted forms, continuum mechanics} +keywords = {differential forms, electromagnetics, twisted forms, continuum mechanics} } @Book{post1962, @@ -111456,7 +111747,7 @@ @Book{post1962 publisher = {North-Holland}, year = {1962}, address = {Amsterdam}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1964, @@ -111468,7 +111759,7 @@ @Article{post1964 number = {3A}, pages = {A686--A691}, note = {\doi{10.1103/PhysRev.133.A686}}, -keywords = {electromagnetism, differential forms, twisted forms, continuum mechanics} +keywords = {electromagnetics, differential forms, twisted forms, continuum mechanics} } @InCollection{post1967, @@ -111492,7 +111783,7 @@ @Article{post1967b number = {2}, pages = {475--493}, note = {\doi{10.1103/RevModPhys.39.475}}, -keywords = {electromagnetism, differential forms, twisted forms, general relativity} +keywords = {electromagnetics, differential forms, twisted forms, general relativity} } @InCollection{post1971, @@ -111515,7 +111806,7 @@ @Article{post1972 number = {2}, pages = {497--518}, note = {\doi{10.1016/0003-4916(72)90129-7}}, -keywords = {electromagnetism, continuum mechanics, Abraham controversy, differential forms, twisted forms} +keywords = {electromagnetics, continuum mechanics, Abraham-Minkowski, differential forms, twisted forms} } @Article{post1974, @@ -111527,7 +111818,7 @@ @Article{post1974 number = {12}, pages = {3379--3386}, note = {\doi{10.1103/PhysRevD.9.3379}}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1977, @@ -111538,7 +111829,7 @@ @Article{post1977 volume = {7}, number = {3--4}, pages = {255--277}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1978, @@ -111549,7 +111840,7 @@ @Article{post1978 volume = {19}, number = {1}, pages = {347}, -keywords = {electromagnetism, differential forms, twisted forms} +keywords = {electromagnetics, differential forms, twisted forms} } @Article{post1978b, @@ -111560,7 +111851,7 @@ @Article{post1978b volume = {8}, number = {3--4}, pages = {277--294}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1979, @@ -111571,7 +111862,7 @@ @Article{post1979 volume = {9}, number = {11--12}, pages = {831--863}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1979b, @@ -111583,7 +111874,7 @@ @Article{post1979b number = {7--8}, pages = {619--640}, note = {\doi{10.1007/BF00708373}}, -keywords = {differential forms, electromagnetism, twisted forms, relativity}, +keywords = {differential forms, electromagnetics, twisted forms, relativity}, mynote = {\enquote{While the material constitutive information appears, as it should, in the constitutive relation, one finds, by contrast, that the free-space constitutive information appears in the Maxwell equations (through covariant derivatives) and partly in the constitutive equations, say for the purpose of lowering and raising indices. There is no chance of resolving this dichotomy unless all metric information is relegated to the constitutive relation.} \sect~1 p.~620} } @@ -111595,7 +111886,7 @@ @Article{post1979c volume = {9}, number = {1--2}, pages = {129--161}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1979d, @@ -111607,7 +111898,7 @@ @Article{post1979d number = {5--6}, pages = {421--424}, note = {See \citebi{kiehn1977b} and also \citebi{kiehn1979}}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1980, @@ -111619,7 +111910,7 @@ @Article{post1980 number = {4}, pages = {288--290}, note = {\doi{10.1016/0375-9601(80)90349-7}}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1982, @@ -111630,7 +111921,7 @@ @Article{post1982 volume = {92}, number = {5}, pages = {224--226}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1982b, @@ -111641,7 +111932,7 @@ @Article{post1982b volume = {25}, number = {12}, pages = {3223--3229}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1982c, @@ -111653,7 +111944,7 @@ @Article{post1982c number = {2}, pages = {169--195}, note = {\doi{10.1007/BF00736847}}, -keywords = {differential forms, electromagnetism, twisted forms, general relativity, dimensional analysis, quantization} +keywords = {differential forms, electromagnetics, twisted forms, general relativity, dimensional analysis, quantization} } @Article{post1983, @@ -111676,7 +111967,7 @@ @Article{post1986 number = {1}, pages = {47--49}, note = {\doi{10.1016/0375-9601(86)90644-4}}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Article{post1987, @@ -111698,7 +111989,7 @@ @Book{post1995 volume = {181}, series = {Boston studies in the philosophy of science}, address = {Dordrecht}, -keywords = {differential forms, electromagnetism, twisted forms} +keywords = {differential forms, electromagnetics, twisted forms} } @Misc{post1995b, @@ -111945,7 +112236,7 @@ @Article{poynting1905 volume = {49}, pages = {169--171}, note = {\doi{10.1080/14786440509463267}}, -keywords = {electromagnetism, stress energy momentum}, +keywords = {electromagnetics, stress energy momentum}, mynote = {\enquote{In so far as it produces this pressure we may regard the beam [of light] as a stream of momentum, the direction of the momentum being along the line of propagation, and the amount of momentum passing per second through unit area cross-section of the beam being equal to the density of the energy in it.} p.~169} } @@ -111978,7 +112269,7 @@ @Article{poyntingetal1910 number = {566}, pages = {534--546}, note = {\url{https://archive.org/details/philtrans06877602}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{pozar1990_r1998, @@ -112797,7 +113088,7 @@ @Article{puentes2019 number = {1}, pages = {91--106}, note = {\doi{10.3390/quantum1010010}}, -keywords = {angular momentum, electromagnetism} +keywords = {angular momentum, electromagnetics} } @Book{puetzfeldetal2015, @@ -112832,7 +113123,7 @@ @Article{pughetal1967 number = {2}, pages = {153--156}, note = {\doi{10.1119/1.1973915}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{puglisietal1999, @@ -112907,7 +113198,7 @@ @Article{puntigametal1997 number = {5}, pages = {1347--1356}, note = {\doi{10.1088/0264-9381/14/5/033}}, -keywords = {electromagnetism, relativity theory, differential forms} +keywords = {electromagnetics, relativity theory, differential forms} } @Article{purdyetal2003, @@ -113845,7 +114136,7 @@ @Article{rajagopaletal1999 volume = {135}, number = {3--4}, pages = {219--228}, -keywords = {electromagnetism, continuum thermomechanics} +keywords = {electromagnetics, continuum thermomechanics} } @Article{rajanetal2010, @@ -114028,7 +114319,7 @@ @Article{ramosetal2015 number = {2}, pages = {025611}, note = {\doi{10.1088/2040-8978/17/2/025611}}, -keywords = {electromagnetism, Poynting vector} +keywords = {electromagnetics, Poynting vector} } @Article{ramsay1966, @@ -114417,7 +114708,7 @@ @Article{ratheetal1995 year = {1995}, volume = {755}, pages = {28--39}, -keywords = {quantum optics, quantum theory, electromagnetism} +keywords = {quantum optics, quantum theory, electromagnetics} } @InCollection{rathjenetal2018_r2022, @@ -114594,7 +114885,7 @@ @Article{recamietal2003 volume = {9}, number = {1}, pages = {59--73}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Misc{recamietal2007, @@ -114602,7 +114893,7 @@ @Misc{recamietal2007 title = {Localized Waves: A scientific and historical introduction}, year = {2007}, note = {\arxiveprint{0708.1655}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{reddy2024, @@ -114800,7 +115091,7 @@ @InCollection{reed2001b booktitle = {\NoCaseChange{\citein{evans1993_r2001c}}}, year = {2001}, pages = {525--569}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{reedetal1972_r1980, @@ -114950,7 +115241,7 @@ @Article{reiss2012 number = {16}, pages = {1371--1383}, note = {See also corrigendum in \citebi{reiss2012_e2013}}, -keywords = {potential, electromagnetism} +keywords = {potential, electromagnetics} } @Article{reiss2012_e2013, @@ -114971,7 +115262,7 @@ @Book{reitzetal1960 year = {1960}, address = {Reading, USA}, note = {\url{https://archive.org/details/foundations-of-electromagnetic-theory-reitz-and-milford}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Misc{rekdaletal2004, @@ -115185,7 +115476,7 @@ @Book{renyi1970b series = {Holden-Day series in probability and statistics}, address = {San Francisco}, keywords = {conditional probability}, -mynote = {\enquote{In general, it makes sense to ask for the probability of an event $A$ only if the conditions under which the event $A$ may or may not occur are specified and the value of the probability depends essentially on these conditions. In other words, \emph{every probability is in reality a conditional probability}. This evident fact is somewhat obscured by the practice of omitting the explicR statement of the conditions if it is clear under which conditions the proba- bility of an event is considered.} \sect~2.1, pp.~34--35} +mynote = {\enquote{In general, it makes sense to ask for the probability of an event $A$ only if the conditions under which the event $A$ may or may not occur are specified and the value of the probability depends essentially on these conditions. In other words, \emph{every probability is in reality a conditional probability}. This evident fact is somewhat obscured by the practice of omitting the explic statement of the conditions if it is clear under which conditions the probability of an event is considered.} \sect~2.1, pp.~34--35} } @Article{rescher1985, @@ -115485,7 +115776,7 @@ @Article{riccietal1901 volume = {54}, pages = {125--201, 628}, note = {\doi{10.1007/BF01454201}, \doi{10.1007/BF01450726}, \url{https://www.digizeitschriften.de/id/235181684_0054}}, -keywords = {Methods of absolute differential calculus and their applications, stress tensor, momentum, electromagnetism} +keywords = {Methods of absolute differential calculus and their applications, stress tensor, momentum, electromagnetics} } @Article{rice1954, @@ -115808,7 +116099,7 @@ @Article{rigoletal2006 volume = {74}, number = {5}, pages = {053616}, -keywords = {electromagnetism, relativity theory, energy-momentum tensor} +keywords = {electromagnetics, relativity theory, energy-momentum tensor} } @Article{rigoletal2007, @@ -115912,7 +116203,8 @@ @Article{rindleretal1988 volume = {56}, number = {9}, pages = {795}, -keywords = {electromagnetism, relativity theory, energy-momentum tensor} +note = {\doi{10.1119/1.15487}}, +keywords = {electromagnetics, relativity theory, energy-momentum tensor} } @Article{ringetal2008, @@ -116600,7 +116892,7 @@ @Article{robertson1937 number = {6}, pages = {423--437}, note = {\doi{10.1093/mnras/97.6.423}}, -keywords = {electromagnetism, stress energy momentum} +keywords = {electromagnetics, stress energy momentum} } @Article{robertson1950, @@ -116818,7 +117110,7 @@ @Article{robinson1975 number = {6}, pages = {313--354}, note = {\doi{10.1016/0370-1573(75)90057-5}}, -keywords = {electromagnetism, stress-energy tensor, continuum mechanics, Abraham controversy} +keywords = {electromagnetics, stress-energy tensor, continuum mechanics, Abraham-Minkowski} } @InCollection{robinson1991, @@ -116869,7 +117161,7 @@ @Article{roche2001 volume = {22}, number = {3}, pages = {193--203}, -keywords = {differential forms, electromagnetism} +keywords = {differential forms, electromagnetics} } @Article{roche2005, @@ -116992,7 +117284,7 @@ @Book{rodriguesetal2007 volume = {722}, series = {Lecture notes in physics}, address = {Berlin}, -keywords = {gravitation, electromagnetism, quantum field theory, geometric algebra} +keywords = {gravitation, electromagnetics, quantum field theory, geometric algebra} } @Article{rodriguesetal2012, @@ -117276,7 +117568,7 @@ @Book{rohrlich1965 year = {1965}, series = {Addison-Wesley series in advanced physics}, address = {Reading, USA}, -keywords = {electromagnetism, field theory}, +keywords = {electromagnetics, field theory}, mynote = {3rd ed.\ \citebi{rohrlich1965_r2007}} } @@ -117371,7 +117663,7 @@ @Article{rohrlich2002b number = {4}, pages = {411--414}, note = {See also comment and reply in \citebi{jefimenkoetal2002}}, -keywords = {electromagnetism, Newtonian mechanics} +keywords = {electromagnetics, Newtonian mechanics} } @Article{rohrlich2005, @@ -117393,7 +117685,7 @@ @Article{rohrlich2008 number = {4}, pages = {046609}, note = {See also \citebi{naumovaetal2009}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @InCollection{rohsenow1966, @@ -117472,7 +117764,7 @@ @Article{romano1978 year = {1978}, volume = {68}, pages = {283--298}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{romano2005, @@ -117540,7 +117832,7 @@ @Article{romer1966 number = {9}, pages = {772--778}, note = {\doi{10.1119/1.1973478}}, -keywords = {electromagnetism, Poynting vector} +keywords = {electromagnetics, Poynting vector} } @Article{romer1982, @@ -117552,7 +117844,7 @@ @Article{romer1982 number = {12}, pages = {1166--1168}, note = {\doi{10.1119/1.12903}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{romer1999, @@ -117812,7 +118104,7 @@ @Article{rosenetal1982 number = {11}, pages = {974--975}, note = {\doi{10.1119/1.12935}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{rosenfeld1940, @@ -117854,7 +118146,7 @@ @Article{rosenfeld1963 year = {1963}, volume = {40}, pages = {353--356}, -keywords = {second quantisation, quantum gravity, electromagnetism, quantum field theory} +keywords = {second quantisation, quantum gravity, electromagnetics, quantum field theory} } @Article{rosenfeld1965, @@ -119345,7 +119637,7 @@ @Book{ryutova2015_r2018 address = {Heidelberg}, edition = {2}, note = {\doi{10.1007/978-3-319-96361-7}. First publ.\ 2015}, -keywords = {electromagnetism, Faraday's lines of force}, +keywords = {electromagnetics, Faraday's lines of force}, origdate = {2015} } @@ -120403,7 +120695,7 @@ @Article{saundersetal1975 number = {5}, pages = {759--772}, note = {See also \citebi{bulloughetal1974}}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Book{sauvigny2006, @@ -120555,7 +120847,7 @@ @Article{scanio1975 volume = {43}, number = {3}, pages = {258--260}, -keywords = {electromagnetism, relativity theory} +keywords = {electromagnetics, relativity theory} } @Article{scanlonetal1979, @@ -120567,7 +120859,7 @@ @Article{scanlonetal1979 number = {10}, pages = {917--918}, note = {\doi{10.1119/1.11638}. See \citebi{crooksetal1978}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{scannelletal2012, @@ -120756,7 +121048,7 @@ @Article{schantz2002 volume = {5}, pages = {89--96}, note = {\doi{10.1007/0-306-47948-6_11}}, -keywords = {electromagnetism, Poynting vector} +keywords = {electromagnetics, Poynting vector} } @Article{schattschneider1978, @@ -120915,7 +121207,7 @@ @Book{schildersetal2004 series = {Mathematics in industry}, address = {Berlin}, note = {\doi{10.1007/978-3-642-55872-6}}, -keywords = {continuum mechanics, electromagnetism} +keywords = {continuum mechanics, electromagnetics} } @Misc{schiller2003, @@ -120934,7 +121226,7 @@ @Article{schillingetal2019 number = {4}, pages = {eaat9953}, note = {\doi{10.1126/sciadv.aat9953}}, -keywords = {second law, entropy, thermomechanics, electromagnetism} +keywords = {second law, entropy, thermomechanics, electromagnetics} } @Book{schilpp1949_r1951, @@ -122197,7 +122489,7 @@ @Article{schwarz1992 number = {8}, pages = {963--982}, note = {\doi{10.1016/0020-7225(92)90023-A}}, -keywords = {continuum mechanics, Abraham controversy} +keywords = {continuum mechanics, Abraham-Minkowski, general relativity} } @Article{schwarzetal1969, @@ -122596,7 +122888,7 @@ @Book{scott1993 publisher = {Wiley}, year = {1993}, address = {New York}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{scott2005, @@ -122781,7 +123073,7 @@ @Article{scullyetal1972 volume = {25}, number = {3}, pages = {38--47}, -keywords = {quantum field theory, electromagnetism} +keywords = {quantum field theory, electromagnetics} } @Article{scullyetal1989, @@ -123232,6 +123524,18 @@ @Book{semler2003 address = {London} } +@Article{semonetal1996, +author = {Mark D. Semon and John R. Taylor}, +title = {Thoughts on the magnetic vector potential}, +journal = ajp, +year = {1996}, +volume = {64}, +number = {11}, +pages = {1361--1369}, +note = {\doi{10.1119/1.18400}}, +keywords = {stress energy, Poynting vector, Abraham-Minkowski, electromagnetics, general relativity} +} + @Article{sen1991, author = {Achin Sen}, title = {Comment on ``{Quantum} mysteries revisited,'' by {N. David Mermin}}, @@ -123918,7 +124222,7 @@ @Article{sharma1988 number = {5}, pages = {420--423}, note = {\doi{10.1119/1.15592}. See also \citebi{griffiths1989}}, -keywords = {electromagnetism, continuum mechanics, angular momentum} +keywords = {electromagnetics, continuum mechanics, angular momentum} } @Article{sharmaetal2008, @@ -124497,7 +124801,7 @@ @Article{shockley1968 number = {3}, pages = {185--186}, note = {\doi{10.1016/0375-9601(68)90190-4}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{shohatetal1932, @@ -125534,7 +125838,7 @@ @Article{sipe1995 number = {3}, pages = {1875--1883}, note = {\doi{10.1103/PhysRevA.52.1875}}, -keywords = {quantum field theory, quantum optics, electromagnetism} +keywords = {quantum field theory, quantum optics, electromagnetics} } @Misc{sisanetal2004, @@ -126292,7 +126596,7 @@ @Book{slichter1963_r1996 address = {Berlin}, edition = {3rd enl.\ and updated ed., corr.\ 3rd pr.}, note = {First publ.\ 1963}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, origdate = {1963} } @@ -126410,7 +126714,7 @@ @Book{smitetal1959 series = {Philips' technical library}, address = {Eindhoven, Holland}, note = {Transl.\ by G. E. Luton}, -keywords = {electromagnetism, spin} +keywords = {electromagnetics, spin} } @Article{smith1965, @@ -126797,7 +127101,7 @@ @Book{smythe1939_r1950 address = {New York}, edition = {2}, note = {First publ.\ 1939}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, origdate = {1939} } @@ -126810,7 +127114,7 @@ @Article{smythetal1977 number = {6}, pages = {581--582}, note = {See \citebi{umanetal1975} and reply \citebi{uman1977}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{sneed1966, @@ -127504,12 +127808,25 @@ @Book{soxetal1988_r2013 year = {2013}, address = {New York}, edition = {2}, -note = {\doi{10.1002/9781118341544}. First publ.\ 1988}, +note = {\doi{10.1002/9781118341544}. First publ.\ 1988. 3rd ed.\ \citebi{soxetal1988_r2024}}, keywords = {Bayesian probability theory, decision theory}, mynote = {\enquote{words are the enemy of clarity in expressing uncertainty}, \sect~3.1.2, p.~29}, origdate = {1988} } +@Book{soxetal1988_r2024, +author = {Harold C. Sox and Michael Clark Higgins and Douglas K. Owens and Gillian Sanders Schmidler}, +title = {Medical Decision Making}, +publisher = {Wiley}, +year = {2024}, +address = {New York}, +edition = {3}, +note = {\doi{10.1002/9781119627876}. First publ.\ 1988}, +keywords = {Bayesian probability theory, decision theory}, +mynote = {\enquote{In fact, words are the enemy of clarity in expressing one's uncertainty}, \sect~3.1.2, p.~19}, +origdate = {1988} +} + @InCollection{spalding1966, author = {D. B. Spalding}, title = {Convective mass transfer}, @@ -127547,7 +127864,7 @@ @Article{spavierietal1992 volume = {18}, number = {4}, pages = {301--306}, -keywords = {electromagnetism, quantum theory} +keywords = {electromagnetics, quantum theory} } @Article{speakeetal1999, @@ -127926,7 +128243,7 @@ @Book{spohn2004 publisher = {Cambridge University Press}, year = {2004}, address = {Cambridge}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{spohnetal1977, @@ -127956,7 +128273,7 @@ @Article{spreeuw1998 volume = {28}, number = {3}, pages = {361--374}, -keywords = {modes, quantum theory, quantum field theory, electromagnetism} +keywords = {modes, quantum theory, quantum field theory, electromagnetics} } @Article{spreeuw2001, @@ -127967,7 +128284,7 @@ @Article{spreeuw2001 volume = {63}, number = {6}, pages = {062302}, -keywords = {modes, quantum theory, quantum field theory, electromagnetism} +keywords = {modes, quantum theory, quantum field theory, electromagnetics} } @Article{sprenger2013, @@ -128860,7 +129177,7 @@ @InCollection{sternetal2015 booktitle = {\NoCaseChange{\citein{changetal2015}}}, year = {2015}, pages = {437--475}, -keywords = {electromagnetism, exterior differential forms, Whitney forms} +keywords = {electromagnetics, exterior differential forms, Whitney forms} } @Article{steuernagel2002, @@ -128922,7 +129239,7 @@ @Article{stevens1958 volume = {72}, number = {6}, pages = {1027--1036}, -keywords = {quantum field theory, electromagnetism, modes} +keywords = {quantum field theory, electromagnetics, modes} } @Article{stevens1979, @@ -129774,7 +130091,7 @@ @Article{strnad1986 volume = {54}, number = {7}, pages = {650--652}, -keywords = {electromagnetism, quantum field theory} +keywords = {electromagnetics, quantum field theory} } @Article{strnad1991, @@ -130158,7 +130475,7 @@ @Article{sudarshanetal1991 volume = {59}, number = {7}, pages = {592--595}, -keywords = {electromagnetism, quantum field theory} +keywords = {electromagnetics, quantum field theory} } @Article{sudheeshetal2005, @@ -130975,7 +131292,7 @@ @Article{synge1974 volume = {117}, pages = {80--84}, note = {\url{https://www.jstor.org/stable/23040495}}, -keywords = {general relativity, Abraham controversy} +keywords = {general relativity, Abraham-Minkowski} } @Book{syngeetal1942_r1949, @@ -131329,7 +131646,7 @@ @Article{tai1972 volume = {60}, number = {8}, pages = {936--945}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Article{tailleux2013, @@ -131770,7 +132087,7 @@ @Article{tanakaetal2007 volume = {98}, number = {3}, pages = {033902}, -keywords = {quantum optics, electromagnetism, quantum field theory, modes} +keywords = {quantum optics, electromagnetics, quantum field theory, modes} } @Article{tangetal2012, @@ -132319,7 +132636,7 @@ @Article{teixeira2013 volume = {2013}, pages = {487270}, note = {\doi{10.1155/2013/487270}}, -keywords = {discrete mathematics, straight and twisted differential forms, electromagnetism} +keywords = {discrete mathematics, straight and twisted differential forms, electromagnetics} } @Article{teixeira2014, @@ -132849,7 +133166,7 @@ @Book{thomasetal1985 year = {1985}, series = {Student monographs in physics}, address = {Bristol and Boston}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{thompson1986, @@ -133379,7 +133696,7 @@ @Book{tiersten1990 volume = {36}, series = {Springer tracts in natural philosophy}, address = {New York}, -keywords = {continuum electromagnetothermomechanics, electromagnetism, continuum theory of brain} +keywords = {continuum electromagnetothermomechanics, electromagnetics, continuum theory of brain} } @Article{tiersten1991, @@ -134676,7 +134993,7 @@ @Article{toupin1960 volume = {5}, number = {1}, pages = {440--452}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Article{toupin1962, @@ -134698,7 +135015,7 @@ @Article{toupin1963 volume = {1}, number = {1}, pages = {101--126}, -keywords = {electromagnetism, continuum thermomechanics} +keywords = {electromagnetics, continuum thermomechanics} } @Article{toupin1964, @@ -134731,7 +135048,7 @@ @Article{toupinetal1961 volume = {7}, number = {1}, pages = {434--448}, -keywords = {electromagnetism, continuum thermomechanics} +keywords = {electromagnetics, continuum thermomechanics} } @Article{trafimow2014, @@ -135078,7 +135395,7 @@ @Article{trimarco2000 volume = {58}, number = {2}, pages = {237--244}, -keywords = {continuum mechanics, electromagnetism, stress-energy tensor} +keywords = {continuum mechanics, electromagnetics, stress-energy tensor} } @Article{trimarco2007, @@ -135089,7 +135406,7 @@ @Article{trimarco2007 volume = {77}, number = {2}, pages = {177--184}, -keywords = {electromagnetism, continuum mechanics} +keywords = {electromagnetics, continuum mechanics} } @Article{trimble2002, @@ -136989,7 +137306,7 @@ @Article{tzalenchuketal2010 volume = {5}, number = {3}, pages = {186--189}, -keywords = {quantum Hall effect, electromagnetism} +keywords = {quantum Hall effect, electromagnetics} } @Misc{uchii1991, @@ -137273,7 +137590,7 @@ @Article{uman1977 number = {6}, pages = {582}, note = {See \citebi{umanetal1975,smythetal1977}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{umanetal1975, @@ -137285,7 +137602,7 @@ @Article{umanetal1975 number = {1}, pages = {33--38}, note = {See also \citebi{smythetal1977,uman1977}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{ungar1992, @@ -137317,7 +137634,7 @@ @Article{unnikrishnan2000 volume = {25}, number = {3}, pages = {363--378}, -keywords = {quantum field theory, electromagnetism, modes, hidden variables} +keywords = {quantum field theory, electromagnetics, modes, hidden variables} } @Article{unruh1976, @@ -137849,7 +138166,7 @@ @Book{vanbladel1964_r2007 address = {Hoboken, USA}, edition = {2}, note = {First publ.\ 1964}, -keywords = {electromagnetism}, +keywords = {electromagnetics}, origdate = {1964} } @@ -137862,7 +138179,7 @@ @Article{vanbladel1991 number = {2}, pages = {69}, note = {\doi{10.1109/MAP.1991.5672647}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{vancampenhoutetal1981, @@ -138117,7 +138434,7 @@ @Article{vandycketal1986 volume = {34}, number = {3}, pages = {722--736}, -keywords = {quantum mechanics, electromagnetism} +keywords = {quantum mechanics, electromagnetics} } @Article{vanenk2003, @@ -138165,7 +138482,7 @@ @Article{vanenk2005 volume = {72}, number = {6}, pages = {064306}, -keywords = {modes, electromagnetism} +keywords = {modes, electromagnetics} } @Article{vanenk2007, @@ -138433,7 +138750,7 @@ @Article{vanklitzingetal1980 volume = {45}, number = {6}, pages = {494--497}, -keywords = {quantum Hall effect, electromagnetism} +keywords = {quantum Hall effect, electromagnetics} } @Article{vanlear1934, @@ -138616,7 +138933,7 @@ @Article{vanzellaetal1996 number = {8}, pages = {1075--1076}, note = {See \citebi{crater1994}}, -keywords = {frame indifference, electromagnetism, inertia} +keywords = {frame indifference, electromagnetics, inertia} } @Book{varadarajan1968_r2007, @@ -139412,7 +139729,7 @@ @Misc{volketal2006 title = {Transport of magnetic field by a turbulent flow of liquid sodium}, year = {2006}, note = {\arxiveprint{physics/0603210}}, -keywords = {classical electromagnetism, macroscopic electromagnetism} +keywords = {classical electromagnetics, macroscopic electromagnetism} } @Article{vollmer2009, @@ -139473,7 +139790,7 @@ @Article{volterra1912 volume = {35}, number = {1}, pages = {295--356}, -keywords = {hysteresis, electromagnetism, continuum mechanics} +keywords = {hysteresis, electromagnetics, continuum mechanics} } @Book{volterra1913, @@ -139680,7 +139997,7 @@ @Article{vonklitzing1986 volume = {58}, number = {3}, pages = {519--531}, -keywords = {electromagnetism, quantum mechanics} +keywords = {electromagnetics, quantum mechanics} } @Book{vonlaue1911_r1921, @@ -140606,7 +140923,7 @@ @Article{wallaceetal1980 number = {6}, pages = {744--745}, note = {\doi{10.1139/p80-101}}, -keywords = {electromagnetism, relativity theory, Poynting vector} +keywords = {electromagnetics, relativity theory, Poynting vector} } @MastersThesis{wallaengen2012, @@ -141439,7 +141756,7 @@ @Book{wegener2005 year = {2005}, series = {Advanced texts in physics}, address = {Berlin}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{wegneretal2007_r2009, @@ -141823,7 +142140,7 @@ @Book{weintraub1997 publisher = {Academic Press}, year = {1997}, address = {San Diego}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Book{weir1973, @@ -141891,7 +142208,7 @@ @Article{weiss1976 @Article{weiss2000, author = {Peter Weiss}, -title = {Can quantum mechanics $+$ thermodynamics $=$ perpetual motion?}, +title = {Can quantum mechanics~${}+{}$ thermodynamics~${}={}$ perpetual motion?}, journal = snews, year = {2000}, volume = {158}, @@ -142001,6 +142318,28 @@ @Article{welch1967 keywords = {time series} } +@Article{weldon1890, +author = {W. F. R. Weldon}, +title = {The Variations Occurring in Certain Decapod Crustacea. -- {I}. \emph{\langnohyph{{Crangon} vulgaris}}}, +journal = prsl, +year = {1890}, +volume = {47}, +pages = {445--453}, +note = {\doi{10.1098/rspl.1889.0105}}, +keywords = {population, sample, statistics, probability theory} +} + +@Article{weldon1893, +author = {W. F. R. Weldon}, +title = {On Certain Correlated Variations in \langnohyph{{Carcinus} m{\oe}nas}}, +journal = prsl, +year = {1893}, +volume = {54}, +pages = {318--329}, +note = {\doi{10.1098/rspl.1893.0078}}, +keywords = {population, sample, statistics, probability theory} +} + @Article{welford1962, author = {B. P. Welford}, title = {Note on a Method for Calculating Corrected Sums of Squares and Products}, @@ -142228,7 +142567,7 @@ @Book{weyl1918_t1952 address = {New York}, edition = {transl.\ of 4th ed.}, note = {\url{https://archive.org/details/spacetimematter00weyluoft}. First publ.\ in German 1918; transl.\ by Henry L. Brose}, -keywords = {differential geometry, electromagnetism, stress, twisted forms}, +keywords = {differential geometry, electromagnetics, stress, twisted forms}, origdate = {1918} } @@ -142304,7 +142643,7 @@ @Article{weyl1929b volume = {15}, number = {4}, pages = {323--334}, -keywords = {general relativity, electromagnetism, differential geometry} +keywords = {general relativity, electromagnetics, differential geometry} } @Article{weyl1931, @@ -143754,7 +144093,7 @@ @Article{williams2020 year = {2020}, volume = {2020}, pages = {1263723}, -keywords = {Kaluza-Klein theory, general relativity, electromagnetism} +keywords = {Kaluza-Klein theory, general relativity, electromagnetics} } @Article{williamsetal2003, @@ -144766,7 +145105,7 @@ @Article{woodwardetal1999 } @Article{wootters1981, -author = {Wootters, William K.}, +author = {William K. Wootters}, title = {Statistical distance and {Hilbert} space}, journal = prd, year = {1981}, @@ -144786,7 +145125,7 @@ @Article{wootters1986 } @Article{wootters1987, -author = {Wootters, William K.}, +author = {William K. Wootters}, title = {A {Wigner}-function formulation of finite-state quantum mechanics}, journal = aop, year = {1987}, @@ -144796,7 +145135,7 @@ @Article{wootters1987 } @InCollection{wootters1990, -author = {Wootters, William K.}, +author = {William K. Wootters}, title = {Local accessibility of quantum states}, booktitle = {\NoCaseChange{\citein{zurek1990}}}, year = {1990}, @@ -144804,7 +145143,7 @@ @InCollection{wootters1990 } @InCollection{wootters1993, -author = {Wootters, William K.}, +author = {William K. Wootters}, title = {The Two Extremes Of Information In Quantum Mechanics}, booktitle = {\NoCaseChange{\citein{matzke1993}}}, year = {1993}, @@ -144813,7 +145152,7 @@ @InCollection{wootters1993 } @Article{wootters2003, -author = {Wootters, William K.}, +author = {William K. Wootters}, title = {Why Things Fall}, journal = fp, year = {2003}, @@ -144896,14 +145235,15 @@ @Article{worthing1940 volume = {8}, number = {1}, pages = {28--30}, -keywords = {failure of equipartition law} +note = {\doi{10.1119/1.1991508}}, +keywords = {thermodynamics, entropy, failure of equipartition law} } @Article{worthington1876, author = {A. M. Worthington}, title = {On the Forms Assumed by Drops of Liquids Falling Vertically on a Horizontal Plate}, journal = prsl, -year = {1876--1877}, +year = {1876}, volume = {25}, pages = {261--272} } @@ -145248,7 +145588,7 @@ @Article{yaghjian2007 number = {6}, pages = {1495--1505}, note = {\doi{10.1109/TAP.2007.897350}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{yahalometal2003, @@ -145327,7 +145667,7 @@ @Book{yang2010 series = {Mathematical modeling and computation}, address = {Philadelphia}, note = {\doi{10.1137/1.9780898719680}}, -keywords = {electromagnetism, nonlinear optics} +keywords = {electromagnetics, nonlinear optics} } @Article{yangetal1952, @@ -145420,7 +145760,7 @@ @Article{yasutomietal2004 number = {5679}, pages = {1944--1947}, note = {Additional material at \url{http://www.sciencemag.org/cgi/content/full/304/5679/1944/DC1}}, -keywords = {quantum mechanics, electromagnetism} +keywords = {quantum mechanics, electromagnetics} } @Article{yavari2008, @@ -146148,7 +146488,7 @@ @Misc{zambonirachedetal2007 title = {Structure of the Nondiffracting (Localized) Waves, and some interesting applications}, year = {2007}, note = {\arxiveprint{0708.1209}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{zambrini1988, @@ -146193,7 +146533,7 @@ @Book{zangwill2013 year = {2013}, address = {Cambridge}, note = {\doi{10.1017/CBO9781139034777}}, -keywords = {electromagnetism} +keywords = {electromagnetics} } @Article{zanna2012, @@ -146835,6 +147175,16 @@ @Article{zhaoetal2005 keywords = {Rivlin-Ericksen fluid, differential memory} } +@PhdThesis{zheng2014, +author = {Zheng, Yi}, +title = {Near-field Radiative Momentum, Energy and Entropy Transfer in Fluctuational Electrodynamics}, +school = {Columbia University}, +year = {2014}, +address = {New York}, +note = {\doi{10.7916/D8NG4NTW}}, +keywords = {electromagnetics, quantum theory} +} + @Article{zhengetal2024, author = {Kaikai Zheng and Shankar Ghosh and Steve Granick}, title = {Exceptions to {Fourier's} law at the macroscale}, @@ -147110,7 +147460,7 @@ @Article{zimmels2002 number = {3}, pages = {036146}, note = {\doi{10.1103/PhysRevE.65.036146}}, -keywords = {electromagnetism, second law} +keywords = {electromagnetics, second law} } @Article{zimmermanetal2010, diff --git a/seven-wonders.pdf b/seven-wonders.pdf index c5a6569..0cc6dc4 100644 Binary files a/seven-wonders.pdf and b/seven-wonders.pdf differ diff --git a/seven-wonders.tex b/seven-wonders.tex index 89bee2d..2fc7453 100644 --- a/seven-wonders.tex +++ b/seven-wonders.tex @@ -2,7 +2,7 @@ \pdfinclusioncopyfonts=1 %% Author: PGL Porta Mana %% Created: 2015-05-01T20:53:34+0200 -%% Last-Updated: 2024-10-29T12:04:09+0100 +%% Last-Updated: 2024-10-30T22:16:40+0100 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \newif\ifanon \anontrue @@ -1859,13 +1859,13 @@ \chapter{Time and space} \section{Time} \label{sec:time} -\emph{Time} is a primitive quantity. We understand the notion of time intuitively, even if it is difficult to explain (that's why it is taken as primitive). In 1905, with the theory of relativity, part of our everyday intuition about this notion was seriously shaken. For many years afterwards our old intuition could still be used in practice and in applications. But the new, correct intuition is becoming more and more important in everyday life and technologies. GPS navigation, for example -- which we use every day in leisure activities like hiking or sightseeing, as well as in more critical ones like aeroplane landing -- crucially depends on the correct notion and intuition of time. But the new intuition of time is also becoming more and more common knowledge thanks to films and mass-media; think of movies like \furl{https://www.imdb.com/title/tt0816692/}{\emph{Interstellar}}. +\emph{Time} is a primitive quantity. We understand the notion of time intuitively, even if it is difficult to explain -- that's why it is taken as primitive. In 1905, with the Theory of Relativity, part of our everyday intuition about the notion of time was seriously shaken. For many years afterwards our old intuition could still be used in practice and in applications. But the new, correct intuition is becoming more and more important in everyday life and technologies. GPS navigation, for example -- which we use every day in leisure activities like hiking or sightseeing, as well as in more critical ones like aeroplane landing -- crucially depends on the correct notion, intuition, and measurement of time. Luckily the new intuition of time is also becoming more and more widespread thanks to films and mass-media; think of movies like \furl{https://www.imdb.com/title/tt0816692/}{\emph{Interstellar}}. -Let's see, by means of a thought experiment, how our traditional intuition about time can go astray. Here's Alice, Bob, and Charlie. They have extremely precise clocks, built in exactly the same way. They synchronize their clocks and stay very close to one another. Keeping close, they go around, maybe on an aeroplane or on a space ship, and all the time they compare their three clocks. They notice that their clocks stay perfectly synchronized all the time, no matter where they go and what they do. +Let's see, by means of a thought experiment, how our traditional intuition about time goes astray. Here's Alice, Bob, and Charlie. They have extremely precise clocks, built in exactly the same way. They synchronize their clocks and stay very close to one another. Keeping close, they go around, maybe on an aeroplane or on a space ship, and they constantly compare their three clocks. They notice that their clocks stay perfectly synchronized all the time, no matter where they go and what they do. At some point they separate, and each one goes around independently. One of them might stay in place, another might take a helicopter, and another might go for a trip to Mars and back. -Alice and Bob at some point meet again, and compare their clocks. They see that their clocks are not synchronized anymore; the difference could be as small as microseconds, or as large as years. In fact, if this time discrepancy is large, they also notice that they themselves have aged differently: the time difference is not only apparent in their clocks, but also in their bodies. Let's say for concreteness that Alice's clock is ahead of Bob's, or equivalently that Bob's clock is behind Alice's. Note the following aspects: +Alice and Bob at some point meet again, and compare their clocks. They see that their clocks are not synchronized anymore; the difference could be as small as microseconds, or as large as years. In fact, if this time discrepancy is large, they notice that they have also aged differently: the time difference is not only apparent in their clocks, but also in their bodies. Let's say for concreteness that Alice's clock is ahead of Bob's, or equivalently that Bob's clock is behind Alice's. Note the following aspects: First, both Alice and Bob can say \enquote{my clock has been working fire, so it should be correct}: neither has noticed anything strange about the passage of time. @@ -2265,14 +2265,12 @@ \chapter{Main physical quantities} \section{Matter} \label{sec:intro_matter} -Matter is a \emph{scalar} quantity, with SI dimension \furl{https://doi.org/10.1351/goldbook.A00297}{\textsf{amount of substance}}, and measured in \furl{https://doi.org/10.1351/goldbook.M03980}{\emph{moles} (\unit{mol})}. Its flux is therefore measured in \emph{moles per second} (\unit{mol/s}). In statistical mechanics and particle physics, matter is often simply counted and so measured in dimensionless units, rather than moles. +Matter is a \emph{scalar} quantity, with SI dimension \furl{https://doi.org/10.1351/goldbook.A00297}{\textsf{amount of substance}}, and measured in \furl{https://doi.org/10.1351/goldbook.M03980}{\emph{moles} (\unit{mol})}. Its flux is therefore measured in \emph{moles per second} (\unit{mol/s}). In statistical mechanics and particle physics, matter is often simply counted and thus measured in dimensionless units, rather than in moles. \smallskip Matter is probably the easiest quantity to grasp intuitively: it is what we ordinarily call \enquote{stuff}. % It is called \furl{https://doi.org/10.1351/goldbook.C01039}{\emph{chemical substance}} in chemistry, and \emph{baryons} and \emph{leptons} in particle physics. -It is usually classified into several kinds. The classification depends on the physical phenomena and theory one works with. - -A building engineer, for instance, could classify \enquote{matter} into different kinds of \emph{materials} -- such as wood, concrete, steel, sand, plastic, and so on -- keeping track of the amount of each material in different regions of space, its movement, its rate of production and transformation. Each material has different physical properties. +It is usually classified into several kinds. The classification depends on the physical phenomena and theory one works with. A building engineer, for instance, could classify \enquote{matter} into different kinds of \emph{materials} -- such as wood, concrete, steel, sand, plastic, and so on -- keeping track of the amount of each material in different regions of space, its movement, its rate of production and transformation. Each material has different physical properties. A chemist could classify matter into different \emph{substances} -- such as water, hydrogen, oxygen, carbon dioxide, and so on -- again keeping track of their amounts, movements, production. According to this classification, the \enquote{materials} of the building engineer would be mixtures of the different substances. But note that there is no clear boundary between one classification and the other. @@ -2362,20 +2360,26 @@ \section{Magnetic flux} \label{sec:intro_charge} -\marginpar{\vspace{-3\baselineskip}\centering% +\marginpar{\vspace{-2\baselineskip}\centering% %\includegraphics[align=t,width=\linewidth]{images/magnflux1.png} -\includegraphics[align=t,width=\linewidth]{images/magnflux2.png} +\includegraphics[width=\linewidth]{images/magnetic-flux_lines.jpg}% \\[\jot]\flushleftright\color{mpcolor}\enquote{\emph{% -sketch of the magnetic lines of force in a magnetic filament extending up through the photosphere.}}\sourceatright{\cites{parker1974b}}% +magnetic-flux lines emerging from the surface of a Type~II superconductor}}\sourceatright{\cites{essmannetal1971}}% } Magnetic flux is a \emph{scalar} quantity, with SI dimension \furl{https://doi.org/10.1351/goldbook.M03684}{\textsf{magnetic flux}}, and measured in units of \furl{https://doi.org/10.1351/goldbook.W06666}{\emph{webers} (\unit{Wb})}. -This flux is usually calculated by means of a \emph{vector} quantity called \textsf{magnetic flux density}, measured in units of \furl{https://doi.org/10.1351/goldbook.T06283}{\emph{teslas} (\unit{T})}. +This flux is usually calculated by means of a \emph{vector} quantity called \textsf{magnetic flux density}, measured in units of \furl{https://doi.org/10.1351/goldbook.T06283}{\emph{teslas} ($\unit{T} = \unit{Wb/m^{2}}$)}. -As we shall see in more detail in \chap\,\ref{cha:cons_magnetic}, magnetic flux differs from the other six main quantities in that it answers the two \enquote{how much?} questions \emph{in one lower dimension}: \enquote{How much magnetic flux crosses this surface?} and \enquote{How much magnetic flux crosses this line?}. It also requires a slightly different notion of orientation of a surface. +As we shall see in more detail in \chap\,\ref{cha:cons_magnetic}, magnetic flux differs from the other six main quantities in that it answers the two \enquote{how much?} questions \emph{in one lower dimension}: \enquote{How much magnetic flux is in this surface?} and \enquote{How much magnetic flux crosses this line in the unit of time?}. It also requires a slightly different notion of orientation of a surface. -The \enquote{flux of magnetic flux} is therefore a flow connected to a line, and ordinarily called \textsf{electric potential difference} or \textsf{electric tension}, measured in units of \furl{https://doi.org/10.1351/goldbook.V06634}{\emph{volts} ($\unit{V} = \unit{Wb/s}$)}. This \enquote{flux of a flux} is usually calculated by means of a vector quantity called \textsf{electric field strength}, measured in units of \emph{volt per metre} (\unit{V/m}). +The \enquote{flux of magnetic flux} is therefore a flow connected to a line. It is ordinarily called \textsf{electric potential difference} or \textsf{electric tension}, measured in units of \furl{https://doi.org/10.1351/goldbook.V06634}{\emph{volts} ($\unit{V} = \unit{Wb/s}$)}. This \enquote{flux of a flux} is usually calculated by means of a vector quantity called \textsf{electric field strength}, measured in units of \emph{volt per metre} (\unit{V/m}). -The magnetic flux density and the electric field strength together are usually called \enquote{electromagnetic field}, which is therefore commonly represented by vectors associated to each point in space. But it can also be interpreted and visualized as a collection of moving, oriented magnetic tubes or lines, either closed or extending indefinitely; somewhat analogously to how we visualize matter and charge, as moving blobs or points, but with one more dimension. This interpretation goes back to Faraday \parencites*{faraday1846}, Maxwell \parencites*{maxwell1855b}, and later Dirac \parencites*{dirac1955} among others, and today is conveniently used in some fields such as \furl{https://doi.org/10.1093/acrefore/9780190871994.013.21}{solar physics}, for example to study \furl{https://spaceplace.nasa.gov/solar-activity/}{sunspots} (see Ryutova \cites*{ryutova2015_r2018}). +\marginpar{\vspace{-4\baselineskip}\centering% +%\includegraphics[align=t,width=\linewidth]{images/magnflux1.png} +\includegraphics[width=\linewidth]{images/magnflux2.png}% +\\[\jot]\flushleftright\color{mpcolor}\enquote{\emph{% +sketch of the magnetic lines of force in a magnetic filament extending up through the photosphere.}}\sourceatright{\cites{parker1974b}}% +} +The magnetic flux density and the electric field strength together are usually called \enquote{electromagnetic field}, which is therefore commonly represented by two vectors associated to each point in space. But it can also be interpreted and visualized as a collection of spinning magnetic tubes or lines, either closed or extending indefinitely, which move around. This visualization is somewhat analogous to how we visualize matter and charge, as moving blobs or points, but with one more dimension. This interpretation goes back to Faraday \parencites*{faraday1846}, Maxwell \parencites*{maxwell1855b}, and later Dirac \parencites*{dirac1955} among others, and today is conveniently used in some fields such as \furl{https://doi.org/10.1093/acrefore/9780190871994.013.21}{solar physics}, for example to study \furl{https://spaceplace.nasa.gov/solar-activity/}{sunspots} (see Ryutova \cites*{ryutova2015_r2018}). In particular situations, for example in some superconductors subjected to external magnetic fields, the magnetic-flux lines can literally be seen as they move around (see previous side picture). \mynotew{To be completed in a later version} @@ -2421,7 +2425,7 @@ \subsection{Energy and mass are the same} \paragraph{Stretched or moving rubber band.} % -\marginpar{\vspace{\baselineskip}\centering\includegraphics[width=\linewidth]{images/rubberbands.png}% +\marginpar{\vspace{-4\baselineskip}\centering\includegraphics[width=\linewidth]{images/rubberbands.png}% \\[\jot]\footnotesize\flushleftright\color{mpcolor}When we stretch a rubber band, its mass increases slightly -- even if the amount of rubber remains exactly the same.% }% Take a common rubber band, and imagine again that we have an extremely precise weighing scale. The rubber band, unstretched, has a mass of exactly @@ -2467,14 +2471,6 @@ \subsection{The practical use of the words \enquote*{mass} and \enquote*{energy} \label{sec:dist_mass_energy} From the examples above it becomes clear that energy and mass are two names for the same thing. -% -\marginpar{\vspace{\baselineskip}% -\footnotesize\color{mpcolor}\enquote{\emph{% -we are led to the more general conclusion: The mass of a body is a measure of its energy content; if the energy changes by $L$, the mass changes in the same sense by $L/9\!\cdot\!10^{20}$, if the energy is measured in ergs and the mass in grams. -%\par Perhaps it will prove possible to test this theory using bodies whose energy content is variable to a high degree (e.g., salts of radium). -}}\sourceatright{\cites{einstein1905d}}% -} -% The equivalence between energy and mass is given by the famous formula $E=m c^{2}$, where $c$ is the speed of light, \eqn~\eqref{eq:c}. In their respective units this gives \begin{equation*} \begin{gathered} @@ -2483,6 +2479,14 @@ \subsection{The practical use of the words \enquote*{mass} and \enquote*{energy} \qty{1}{J} \approx \qty{0.0000000000000000111265}{kg} \end{gathered} \end{equation*} +% +\marginpar{\vspace{-6\baselineskip}% +\footnotesize\color{mpcolor}\enquote{\emph{% +we are led to the more general conclusion: The mass of a body is a measure of its energy content; if the energy changes by $L$, the mass changes in the same sense by $L/9\!\cdot\!10^{20}$, if the energy is measured in ergs and the mass in grams. +%\par Perhaps it will prove possible to test this theory using bodies whose energy content is variable to a high degree (e.g., salts of radium). +}}\sourceatright{\cites{einstein1905d}}% +} +% To grasp these numbers, consider that the mass of the rubber band in the example above, \qty{0.5}{g}, is comparable to the energy released by the \furl{https://www.britannica.com/story/atomic-bombing-of-hiroshima}{atomic bomb over Hiroshima}. But it also becomes clear that in our daily experience we deal with energy-mass in two different ways: @@ -2653,7 +2657,7 @@ \section{Angular momentum} This is the reason why in many situations we can calculate angular momentum in terms of momentum. % so even if we don't fully grasp it intuitively, we can still calculate it % -\marginpar{\vspace{-4\baselineskip}\centering\includegraphics[align=t,width=\linewidth]{images/cube_Nms_coords.jpg}% +\marginpar{\vspace{-10\baselineskip}\centering\includegraphics[align=t,width=\linewidth]{images/cube_Nms_coords.jpg}% \\[\jot]\footnotesize\flushleftright\color{mpcolor}The amount of angular momentum within a volume at a given instant is represented by a \textcolor{purple}{3D vector} (curious about the little circulation symbol around the vector? then read on). The magnitude and direction of this vector depend on the coordinate system we're using.% }% If the momentum in a \emph{small} volume is denoted by the vector $\yP=(P_{x},P_{y},P_{z})$, and the position vector by $\yr=(x,y,z)$, then the angular momentum $\yL=(L_{x}, L_{y}, L_{z})$ \emph{with respect to the origin of coordinates}, in that same volume, is given by the vector product @@ -2718,7 +2722,7 @@ \section{Angular momentum} \bigskip -\marginpar{\vspace{-6\baselineskip}\centering\includegraphics[width=0.67\linewidth]{images/polymer.png}% +\marginpar{\vspace{-8\baselineskip}\centering\includegraphics[width=0.67\linewidth]{images/polymer.png}% \\\includegraphics[width=\linewidth]{images/polymer2.png}% \\[\jot]\flushleftright\footnotesize\color{mpcolor}Some liquid polymers (\textbf{top:} Liquid Diethoxymethane Polysulfide) need to be described with a special kind of angular momentum, owing to their molecular structure (\textbf{bottom}).% }%