Recent Improvements in Geant4 Electromagnetic Physics Models and Interfaces
Authorized Users Only
2011
Authors
Ivanchenko, VladimirApostolakis, John
Bagulya, Alexander V.
Abdelouahed, Haifa Ben
Black, Rachel
Bogdanov, Alexey
Burkhard, Helmut
Chauvie, Stéphane
Cirrone, Giuseppe Antonio Pablo
Cuttone, Giacomo
Depaola, Gerardo O.
Di Rosa, Francesco
Elles, Sabine
Francis, Ziad
Grichine, Vladimir
Gumplinger, Peter
Gueye, Paul
Incerti, Sebastien
Ivanchenko, Anton
Jacquemier, Jean
Lechner, Anton
Longo, Francesco
Kadri, Omrane
Karakatsanis, Nicolas
Karamitros, Mathieu
Kokoulin, Rostislav
Kurashige, Hisaya
Maire, Michel
Mantero, Alfonso
Mascialino, Barbara
Moscicki, Jakub
Pandola, Luciano
Perl, Joseph M.
Petrović, Ivan M.
Ristić-Fira, Aleksandra
Romano, Francesco
Russo, Giorgio
Santin, Giovanni
Schaelicke, Andreas
Toshito, Toshiyuki
Tran, Hoang
Urban, Laszlo
Yamashita, Tomohiro
Zacharatou, Christina
Article (Published version)
Metadata
Show full item recordAbstract
An overview of the electromagnetic (EM) physics of the Geant4 toolkit is presented Two sets of EM models are available: the 'Standard' initially focused on high energy physics (HEP) while the 'Low-energy' was developed for medical, space and other applications The 'Standard' models provide a faster computation but are less accurate for keV energies, the 'Low-energy' models are more CPU time consuming A common interface to EM physics models has been developed allowing a natural combination of ultra-relativistic, relativistic and low-energy models for the same run providing both precision and CPU performance Due to this migration additional capabilities become available The new developments include relativistic models for bremsstrahlung and e+e- pair production, models of multiple and single scattering, hadron/ion ionization, microdosimetry for very low energies and also improvements in existing Geant4 models In parallel, validation suites and benchmarks have been intensively developed (...author)
Keywords:
Geant4 / bremsstrahlung / Monte Carlo / multiple scattering / energy lossSource:
Progress in Nuclear Science and Technology, 2011, 2, 898-903Collections
Institution/Community
VinčaTY - JOUR AU - Ivanchenko, Vladimir AU - Apostolakis, John AU - Bagulya, Alexander V. AU - Abdelouahed, Haifa Ben AU - Black, Rachel AU - Bogdanov, Alexey AU - Burkhard, Helmut AU - Chauvie, Stéphane AU - Cirrone, Giuseppe Antonio Pablo AU - Cuttone, Giacomo AU - Depaola, Gerardo O. AU - Di Rosa, Francesco AU - Elles, Sabine AU - Francis, Ziad AU - Grichine, Vladimir AU - Gumplinger, Peter AU - Gueye, Paul AU - Incerti, Sebastien AU - Ivanchenko, Anton AU - Jacquemier, Jean AU - Lechner, Anton AU - Longo, Francesco AU - Kadri, Omrane AU - Karakatsanis, Nicolas AU - Karamitros, Mathieu AU - Kokoulin, Rostislav AU - Kurashige, Hisaya AU - Maire, Michel AU - Mantero, Alfonso AU - Mascialino, Barbara AU - Moscicki, Jakub AU - Pandola, Luciano AU - Perl, Joseph M. AU - Petrović, Ivan M. AU - Ristić-Fira, Aleksandra AU - Romano, Francesco AU - Russo, Giorgio AU - Santin, Giovanni AU - Schaelicke, Andreas AU - Toshito, Toshiyuki AU - Tran, Hoang AU - Urban, Laszlo AU - Yamashita, Tomohiro AU - Zacharatou, Christina PY - 2011 UR - https://vinar.vin.bg.ac.rs/handle/123456789/8641 AB - An overview of the electromagnetic (EM) physics of the Geant4 toolkit is presented Two sets of EM models are available: the 'Standard' initially focused on high energy physics (HEP) while the 'Low-energy' was developed for medical, space and other applications The 'Standard' models provide a faster computation but are less accurate for keV energies, the 'Low-energy' models are more CPU time consuming A common interface to EM physics models has been developed allowing a natural combination of ultra-relativistic, relativistic and low-energy models for the same run providing both precision and CPU performance Due to this migration additional capabilities become available The new developments include relativistic models for bremsstrahlung and e+e- pair production, models of multiple and single scattering, hadron/ion ionization, microdosimetry for very low energies and also improvements in existing Geant4 models In parallel, validation suites and benchmarks have been intensively developed (author) T2 - Progress in Nuclear Science and Technology T1 - Recent Improvements in Geant4 Electromagnetic Physics Models and Interfaces VL - 2 SP - 898 EP - 903 DO - 10.15669/pnst.2.898 ER -
@article{ author = "Ivanchenko, Vladimir and Apostolakis, John and Bagulya, Alexander V. and Abdelouahed, Haifa Ben and Black, Rachel and Bogdanov, Alexey and Burkhard, Helmut and Chauvie, Stéphane and Cirrone, Giuseppe Antonio Pablo and Cuttone, Giacomo and Depaola, Gerardo O. and Di Rosa, Francesco and Elles, Sabine and Francis, Ziad and Grichine, Vladimir and Gumplinger, Peter and Gueye, Paul and Incerti, Sebastien and Ivanchenko, Anton and Jacquemier, Jean and Lechner, Anton and Longo, Francesco and Kadri, Omrane and Karakatsanis, Nicolas and Karamitros, Mathieu and Kokoulin, Rostislav and Kurashige, Hisaya and Maire, Michel and Mantero, Alfonso and Mascialino, Barbara and Moscicki, Jakub and Pandola, Luciano and Perl, Joseph M. and Petrović, Ivan M. and Ristić-Fira, Aleksandra and Romano, Francesco and Russo, Giorgio and Santin, Giovanni and Schaelicke, Andreas and Toshito, Toshiyuki and Tran, Hoang and Urban, Laszlo and Yamashita, Tomohiro and Zacharatou, Christina", year = "2011", abstract = "An overview of the electromagnetic (EM) physics of the Geant4 toolkit is presented Two sets of EM models are available: the 'Standard' initially focused on high energy physics (HEP) while the 'Low-energy' was developed for medical, space and other applications The 'Standard' models provide a faster computation but are less accurate for keV energies, the 'Low-energy' models are more CPU time consuming A common interface to EM physics models has been developed allowing a natural combination of ultra-relativistic, relativistic and low-energy models for the same run providing both precision and CPU performance Due to this migration additional capabilities become available The new developments include relativistic models for bremsstrahlung and e+e- pair production, models of multiple and single scattering, hadron/ion ionization, microdosimetry for very low energies and also improvements in existing Geant4 models In parallel, validation suites and benchmarks have been intensively developed (author)", journal = "Progress in Nuclear Science and Technology", title = "Recent Improvements in Geant4 Electromagnetic Physics Models and Interfaces", volume = "2", pages = "898-903", doi = "10.15669/pnst.2.898" }
Ivanchenko, V., Apostolakis, J., Bagulya, A. V., Abdelouahed, H. B., Black, R., Bogdanov, A., Burkhard, H., Chauvie, S., Cirrone, G. A. P., Cuttone, G., Depaola, G. O., Di Rosa, F., Elles, S., Francis, Z., Grichine, V., Gumplinger, P., Gueye, P., Incerti, S., Ivanchenko, A., Jacquemier, J., Lechner, A., Longo, F., Kadri, O., Karakatsanis, N., Karamitros, M., Kokoulin, R., Kurashige, H., Maire, M., Mantero, A., Mascialino, B., Moscicki, J., Pandola, L., Perl, J. M., Petrović, I. M., Ristić-Fira, A., Romano, F., Russo, G., Santin, G., Schaelicke, A., Toshito, T., Tran, H., Urban, L., Yamashita, T.,& Zacharatou, C.. (2011). Recent Improvements in Geant4 Electromagnetic Physics Models and Interfaces. in Progress in Nuclear Science and Technology, 2, 898-903. https://doi.org/10.15669/pnst.2.898
Ivanchenko V, Apostolakis J, Bagulya AV, Abdelouahed HB, Black R, Bogdanov A, Burkhard H, Chauvie S, Cirrone GAP, Cuttone G, Depaola GO, Di Rosa F, Elles S, Francis Z, Grichine V, Gumplinger P, Gueye P, Incerti S, Ivanchenko A, Jacquemier J, Lechner A, Longo F, Kadri O, Karakatsanis N, Karamitros M, Kokoulin R, Kurashige H, Maire M, Mantero A, Mascialino B, Moscicki J, Pandola L, Perl JM, Petrović IM, Ristić-Fira A, Romano F, Russo G, Santin G, Schaelicke A, Toshito T, Tran H, Urban L, Yamashita T, Zacharatou C. Recent Improvements in Geant4 Electromagnetic Physics Models and Interfaces. in Progress in Nuclear Science and Technology. 2011;2:898-903. doi:10.15669/pnst.2.898 .
Ivanchenko, Vladimir, Apostolakis, John, Bagulya, Alexander V., Abdelouahed, Haifa Ben, Black, Rachel, Bogdanov, Alexey, Burkhard, Helmut, Chauvie, Stéphane, Cirrone, Giuseppe Antonio Pablo, Cuttone, Giacomo, Depaola, Gerardo O., Di Rosa, Francesco, Elles, Sabine, Francis, Ziad, Grichine, Vladimir, Gumplinger, Peter, Gueye, Paul, Incerti, Sebastien, Ivanchenko, Anton, Jacquemier, Jean, Lechner, Anton, Longo, Francesco, Kadri, Omrane, Karakatsanis, Nicolas, Karamitros, Mathieu, Kokoulin, Rostislav, Kurashige, Hisaya, Maire, Michel, Mantero, Alfonso, Mascialino, Barbara, Moscicki, Jakub, Pandola, Luciano, Perl, Joseph M., Petrović, Ivan M., Ristić-Fira, Aleksandra, Romano, Francesco, Russo, Giorgio, Santin, Giovanni, Schaelicke, Andreas, Toshito, Toshiyuki, Tran, Hoang, Urban, Laszlo, Yamashita, Tomohiro, Zacharatou, Christina, "Recent Improvements in Geant4 Electromagnetic Physics Models and Interfaces" in Progress in Nuclear Science and Technology, 2 (2011):898-903, https://doi.org/10.15669/pnst.2.898 . .