This is a fork of sfdmap, as the original repository is no longer maintained.
A minimal, fast, MIT-licensed Python module for getting E(B-V) values from Schlegel, Finkbeiner & Davis (1998) dust map FITS files.
from sfdmap2 import sfdmap
m = sfdmap.SFDMap()
m.ebv(100., 40.) # Get E(B-V) value at RA=100 degrees, Dec=40 degrees
0.10739716819557897
Requirements: numpy and a FITS reader (either fitsio or astropy).
pip install sfdmap2
The FITS files comprising the map must be downloaded separately. Among other locations, they are available from http://github.com/kbarbary/sfddata. On UNIX systems, run the following to download the maps (93 MB download size):
wget https://github.com/kbarbary/sfddata/archive/master.tar.gz
tar xzf master.tar.gz
A directory sfddata-master
will be created. Move or rename as you like.
from sfdmap2 import sfdmap
m = sfdmap.SFDMap('/path/to/dustmap/files')
m = sfdmap.SFDMap() # get directory from SFD_DIR environment variable
By default, a scaling of 0.86 is applied to the map values to reflect the recalibration by Schlafly & Finkbeiner (2011). To get the original values, use scaling=1.0
when constructing the map:
m = sfdmap.SFDMap(scaling=1.0)
Get E(B-V) value at RA, Dec = 0., 0. (ICRS frame)
m.ebv(0., 0.)
0.031814847141504288
Get E(B-V) at three locations (first argument is RA, second is Dec):
m.ebv([0., 5., 10.], [0., 1.5, 2.1])
array([ 0.03181879, 0.02374864, 0.01746732])
By default the coordinates are assumed to be in degrees in the ICRS coordinate system (e.g., "J2000"). This can be changed with the frame
and unit
keywords:
m.ebv(1.68140, -1.0504884, frame='galactic', unit='radian')
0.031820329230751863
The dust map values are linearly interpolated by default. Change this with the interpolate
keyword:
m.ebv(1.68140, -1.0504884, frame='galactic', unit='radian', interpolate=False)
0.031526423990726471
You can pass an astropy SkyCoord
instance:
from astropy.coordinates import SkyCoord
coords = SkyCoord([0., 5., 10.], [0., 1.5, 2.1], frame='icrs', unit='degree')
m.ebv(coords)
array([ 0.03181879, 0.02374864, 0.01746732])
Finally, there is a convenience function in the module so that you
don't have to construct a SFDMap
instance if you just want to query
the map once:
sfdmap.ebv(0., 0.) # get map directory from SFD_DIR environment variable
0.031818788521008
sfdmap.ebv(0., 0., mapdir='/path/to/dust/files')
0.031818788521008
The E(B-V) values from the map give information about the amplitude of dust extinction in a given direction. To get the extinction at a given wavelength or through a given filter, one needs information about the relative extinction between different wavelengths: an "extinction law". One can use the extinction package for this. For example, the following code gets the extinction in magnitudes at RA, Dec = (0., 0.) and wavelengths (4000, 5000):
import extinction
ebv = m.ebv(0., 0.)
wave = np.array([4000., 5000.])
extinction.fitzpatrick99(wave, 3.1 * ebv)
array([ 0.12074424, 0.09513746])
To get the extinction in a given bandpass, one needs to know the source spectrum, as different wavelengths in the bandpass will have different extinction. With an assumed source spectrum, one would integrate the source spectrum with extinction applied through the bandpass and then compare to the unextincted spectrum integrated through the same bandpass. Some papers provide extinction values in a number of common bandpasses; these assume some source spectrum.
Note that while passing an astropy SkyCoord
object works, if you have coordinates in the ICRS or FK5 (epoch 2000) (e.g., J2000) systems, it is far faster to pass latitute and longitude directly. This is particularly true for small numbers of coordinates or scalar coordinates:
from astropy.coordinates import SkyCoord
from sfdmap2 import sfdmap
m = sfdmap.SFDMap()
m.ebv(0., 0.) # evaluate once to trigger reading the FITS file
0.03181878852100873
coord = SkyCoord(0., 0., unit='degree')
%timeit m.ebv(coord) # time with SkyCoord object
100 loops, best of 3: 18.1 ms per loop
%timeit m.ebv(0., 0., unit='degree') # pass ra, dec directly
10000 loops, best of 3: 80 µs per loop
There are a couple other packages that support getting dust values from this map. Both these packages have a bigger scope than this one and include several other 2-d or 3-d galactic dust maps. Check them out if you want to compare between different maps or need 3-d maps. Below, I note a few relevant differences from this package.
mwdust.SFD
gives the extinction in a given band rather than E(B-V). The API is geared towards 3-d maps, so a distance must be given. Python 3 is not currently supported. The license is BSD.
dustmaps.sfd.SFDQuery
uses astropy's SkyCoord for all coordinate conversions and therefore has suboptimal performance for small numbers of coordinates (see "Performance Note" above). The license is GPLv2.