Using different Monte Carlo codes such as Geant 4.10, Pythia 8.18, SIBYLL and QGSJET, as well as compiling published data on pp interactions close to the kinematic threshold, we parametrize the energy spectra and production rates of gamma-rays by simple but quite accurate (≤ 20%) analytical expressions in a broad range from the kinematic threshold to PeV energies
In an intercomparison exercise, the Monte Carlo codes most commonly used in gamma-ray spectrometry t...
Present and future gamma-beam facilities represent a great opportunity to validate and evaluate the ...
We present the angular distribution of gamma rays produced by proton-proton interactions in paramete...
Using different Monte Carlo codes such as Geant 4.10, Pythia 8.18, SIBYLL and QGSJET, as well as com...
Using publicly available Monte Carlo codes as well as compilation of published data on pp interactio...
In the Monte Carlo method, quantities of interest for the application are calculated through statist...
In this paper, results of simulations of the gamma-ray production in reactions with 70 MeV protons i...
Nowadays the precision in the measurement has become a challenge for physicists. That is why in rece...
We present new parametrisations of energy spectra of secondary particles, $\pi$-mesons, gamma-rays, ...
In this paper, results of simulations of the gamma-ray production in reactions with 70 MeV protons i...
This is the Python source code for the software GAmma-Ray Monte-carlo Radiative transfer (GARMR). Th...
The determination of gamma ray transport has proven difficult to handle by ordinary methods. The use...
We present the yield and spectra of stable secondary particles (gamma, e^+/-, nu_e, nubar_e, nu_mu, ...
International audienceMonte Carlo simulations are now widely used in gamma-ray spectrometry either t...
We have developed a methodology to simulate gamma-ray energy spectra to aid those who assay special ...
In an intercomparison exercise, the Monte Carlo codes most commonly used in gamma-ray spectrometry t...
Present and future gamma-beam facilities represent a great opportunity to validate and evaluate the ...
We present the angular distribution of gamma rays produced by proton-proton interactions in paramete...
Using different Monte Carlo codes such as Geant 4.10, Pythia 8.18, SIBYLL and QGSJET, as well as com...
Using publicly available Monte Carlo codes as well as compilation of published data on pp interactio...
In the Monte Carlo method, quantities of interest for the application are calculated through statist...
In this paper, results of simulations of the gamma-ray production in reactions with 70 MeV protons i...
Nowadays the precision in the measurement has become a challenge for physicists. That is why in rece...
We present new parametrisations of energy spectra of secondary particles, $\pi$-mesons, gamma-rays, ...
In this paper, results of simulations of the gamma-ray production in reactions with 70 MeV protons i...
This is the Python source code for the software GAmma-Ray Monte-carlo Radiative transfer (GARMR). Th...
The determination of gamma ray transport has proven difficult to handle by ordinary methods. The use...
We present the yield and spectra of stable secondary particles (gamma, e^+/-, nu_e, nubar_e, nu_mu, ...
International audienceMonte Carlo simulations are now widely used in gamma-ray spectrometry either t...
We have developed a methodology to simulate gamma-ray energy spectra to aid those who assay special ...
In an intercomparison exercise, the Monte Carlo codes most commonly used in gamma-ray spectrometry t...
Present and future gamma-beam facilities represent a great opportunity to validate and evaluate the ...
We present the angular distribution of gamma rays produced by proton-proton interactions in paramete...