Releases: N-Medvedev/TREKIS-3
TREKIS-3.3.0
TREKIS : Time Resolved Electron Kinetics in SHI Irradiated Solids
Version 3.3.0 update 10.07.2024
Monte-Carlo code modelling electronic kinetics after swift-heavy ion impact on matter
Up-to-date version available at: https://github.com/N-Medvedev/TREKIS-3
Disclaimer
Although we endeavour to ensure that the code TREKIS-3 and results delivered are correct, no warranty is given as to its accuracy. We assume no responsibility for possible errors or omissions. We shall not be liable for any damage arising from the use of this code or its parts or any results produced with it, or from any action or decision taken as a result of using this code or any related material.
This code is distributed as is for non-commercial peaceful purposes only, such as research and education. It is explicitly prohibited to use the code, its parts, its results or any related material for military-related and other than peaceful purposes. By using this code or its materials, you agree with these terms and conditions.
Update 3.3.0:
- MPI-parallelization added
- Minor bugfixes
References
N. Medvedev, A.E. Volkov, R. Rymzhanov, F. Akhmetov, S. Gorbunov, R. Voronkov, P. Babaev, "Frontiers, challenges, and solutions in modeling of swift heavy ion effects in materials", J. Appl. Phys. 133, 100701 (2023) https://doi.org/10.1063/5.0128774
TREKIS-3.2.0
TREKIS : Time Resolved Electron Kinetics in SHI Irradiated Solids
Version 3.2.0 update 31.05.2024
Monte-Carlo code modelling electronic kinetics after swift-heavy ion impact on matter
Up-to-date version available at: https://github.com/N-Medvedev/TREKIS-3
Disclaimer
Although we endeavour to ensure that the code TREKIS-3 and results delivered are correct, no warranty is given as to its accuracy. We assume no responsibility for possible errors or omissions. We shall not be liable for any damage arising from the use of this code or its parts or any results produced with it, or from any action or decision taken as a result of using this code or any related material.
This code is distributed as is for non-commercial peaceful purposes only, such as research and education. It is explicitly prohibited to use the code, its parts, its results or any related material for military-related and other than peaceful purposes. By using this code or its materials, you agree with these terms and conditions.
Update 3.2.0:
- Using tabulated differential cross sections from precalculated files (significantly speeds up calculations, with only marginal increase in memory and disk-space demands)
- Option to set only valence-band (and/or phonon) CDF in cdf-file
- Support for compilation without OpenMP added
- Gnuplots of energy densities converted to eV/atom
- Bugfixes and patches (including compilation with OpenMP in Linux)
References
N. Medvedev, A.E. Volkov, R. Rymzhanov, F. Akhmetov, S. Gorbunov, R. Voronkov, P. Babaev, "Frontiers, challenges, and solutions in modeling of swift heavy ion effects in materials", J. Appl. Phys. 133, 100701 (2023) https://doi.org/10.1063/5.0128774
TREKIS-3.1.3
TREKIS : Time Resolved Electron Kinetics in SHI Irradiated Solids
Version 3.1.3 update 08.05.2024
Monte-Carlo code modelling electronic kinetics after swift-heavy ion impact on matter
Up-to-date version available at: https://github.com/N-Medvedev/TREKIS-3
Disclaimer
Although we endeavour to ensure that the code TREKIS-3 and results delivered are correct, no warranty is given as to its accuracy. We assume no responsibility for possible errors or omissions. We shall not be liable for any damage arising from the use of this code or its parts or any results produced with it, or from any action or decision taken as a result of using this code or any related material.
This code is distributed as is for non-commercial peaceful purposes only, such as research and education. It is explicitly prohibited to use the code, its parts, its results or any related material for military-related and other than peaceful purposes. By using this code or its materials, you agree with these terms and conditions.
Update 3.1.3:
Bugfix in automatic setting of single-pole CDF coefficients; bugfix/patch for interpreting chemical formula; bugfix in Auger-decay (for some elements with shells closer than bandgap); plus minor improvements.
References
N. Medvedev, A.E. Volkov, R. Rymzhanov, F. Akhmetov, S. Gorbunov, R. Voronkov, P. Babaev, "Frontiers, challenges, and solutions in modeling of swift heavy ion effects in materials", J. Appl. Phys. 133, 100701 (2023) https://doi.org/10.1063/5.0128774
TREKIS-3.1.2 (update 03.11.2023)
TREKIS : Time Resolved Electron Kinetics in SHI Irradiated Solids
Monte-Carlo code modelling electronic kinetics after swift-heavy ion impact on matter
Up-to-date version available at: https://github.com/N-Medvedev/TREKIS-3
Disclaimer
Although we endeavour to ensure that the code TREKIS-3 and results delivered are correct, no warranty is given as to its accuracy. We assume no responsibility for possible errors or omissions. We shall not be liable for any damage arising from the use of this code or its parts or any results produced with it, or from any action or decision taken as a result of using this code or any related material.
This code is distributed as is for non-commercial peaceful purposes only, such as research and education. It is explicitly prohibited to use the code, its parts, its results or any related material for military-related and other than peaceful purposes. By using this code or its materials, you agree with these terms and conditions.
Update 3.1.2:
Minor bugfixes (+ test and experimental options for further development)
Update 3.1.1:
TREKIS-3 made universal, with automatic fitting of CDF coefficients in the single-pole approximation (if user did not provide well-fitted coefficient for the material of choice). See manual for details and description of approximations used. Also, gnuplot-calls are added to visualize the results (shell-scripts are created in the output directory).
References
N. Medvedev, A.E. Volkov, R. Rymzhanov, F. Akhmetov, S. Gorbunov, R. Voronkov, P. Babaev, "Frontiers, challenges, and solutions in modeling of swift heavy ion effects in materials", J. Appl. Phys. 133, 100701 (2023) https://doi.org/10.1063/5.0128774
TREKIS-3.1.1 (update 29.09.2023)
TREKIS-3 made universal, with automatic fitting of CDF coefficients in the single-pole approximation (if user did not provide well-fitted coefficient for the material of choice). See manual for details and description of approximations used. Also, gnuplot-calls are added to visualize the results (shell-scripts are created in the output directory).