codes:en_brems
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| codes:en_brems [2014/10/02 15:47] – ute | codes:en_brems [2025/04/17 13:57] (current) – external edit 127.0.0.1 | ||
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| where E_kin denotes the kinetic energy of the incident electron in Joule, omega is the | where E_kin denotes the kinetic energy of the incident electron in Joule, omega is the | ||
| - | frequency of the emitted photon in s$^{−1}$ and Theta_i is the scattering angle. The function | + | frequency of the emitted photon in 1/s and Theta_i is the scattering angle. The function |
| to calculate the doubly differential cross section for pair production can be called by\\ | to calculate the doubly differential cross section for pair production can be called by\\ | ||
| < | < | ||
| Line 16: | Line 16: | ||
| </ | </ | ||
| where E_kin denotes the kinetic energy of the created positron in Joule, omega the frequency | where E_kin denotes the kinetic energy of the created positron in Joule, omega the frequency | ||
| - | of the incident photon in s$^{−1}$ and Theta_p the angle between both.\\ | + | of the incident photon in 1/s and Theta_p the angle between both.\\ |
| The code can be downloaded {{en_brems.cpp|here}}. | The code can be downloaded {{en_brems.cpp|here}}. | ||
| If you use this code, please cite {{bremsstrahlung_koehn_ebert_final_pagenumber.pdf|this article}}. | If you use this code, please cite {{bremsstrahlung_koehn_ebert_final_pagenumber.pdf|this article}}. | ||
codes/en_brems.1412264871.txt.gz · Last modified: 2025/04/17 13:58 (external edit)