\u3cp\u3eThe emerging field of high-energy atmospheric physics studies how high-energy particles are produced in thunderstorms, in the form of terrestrial γ-ray flashes and γ-ray glows (also referred to as thunderstorm ground enhancements). Understanding these phenomena requires appropriate models of the interaction of electrons, positrons and photons with air molecules and electric fields. We investigated the results of three codes used in the community-Geant4, GRanada Relativistic Runaway simulator (GRRR) and Runaway Electron Avalanche Model (REAM)-to simulate relativistic runaway electron avalanches (RREAs). This work continues the study of Rutjes et al. (2016), now also including the effects of uniform electric fields, up to the classic...
International audienceWe have done a thorough simulation analysis on the variability of the photon s...
International audienceThe runaway electron mechanism is of great importance for the understanding of...
The GEANT4-based Source code used for the Article : "Evaluation of Monte Carlo tools for high energy...
The emerging field of high-energy atmospheric physics studies how high-energy particles are produced...
The emerging field of high-energy atmospheric physics studies how high-energy particles are produced...
The emerging field of high-energy atmospheric physics studies how high-energy particles are produce...
This paper presents the first study that uses the GEometry ANd Tracking 4 (GEANT4) toolkit to do qua...
Abstract. A three-dimensional Monte Carlo model of the uniform relativistic runaway electron breakdo...
A three-dimensional Monte Carlo model of the uniform relativistic runaway electron breakdown in air ...
International audienceEnergetic radiation from thunderstorms is currently being measured by ground-b...
The comparative analysis of three thunderstorms on Aragats in May 2021 demonstrates that relativisti...
The connection between thunderstorms and relativistic runaway electron avalanches is an important to...
\u3cp\u3eThe emerging field of high energy atmospheric physics (HEAP) includes terrestrial gamma-ray...
The emerging field of high energy atmospheric physics (HEAP) includes terrestrial gamma-ray flashes...
International audienceWe have done a thorough simulation analysis on the variability of the photon s...
International audienceThe runaway electron mechanism is of great importance for the understanding of...
The GEANT4-based Source code used for the Article : "Evaluation of Monte Carlo tools for high energy...
The emerging field of high-energy atmospheric physics studies how high-energy particles are produced...
The emerging field of high-energy atmospheric physics studies how high-energy particles are produced...
The emerging field of high-energy atmospheric physics studies how high-energy particles are produce...
This paper presents the first study that uses the GEometry ANd Tracking 4 (GEANT4) toolkit to do qua...
Abstract. A three-dimensional Monte Carlo model of the uniform relativistic runaway electron breakdo...
A three-dimensional Monte Carlo model of the uniform relativistic runaway electron breakdown in air ...
International audienceEnergetic radiation from thunderstorms is currently being measured by ground-b...
The comparative analysis of three thunderstorms on Aragats in May 2021 demonstrates that relativisti...
The connection between thunderstorms and relativistic runaway electron avalanches is an important to...
\u3cp\u3eThe emerging field of high energy atmospheric physics (HEAP) includes terrestrial gamma-ray...
The emerging field of high energy atmospheric physics (HEAP) includes terrestrial gamma-ray flashes...
International audienceWe have done a thorough simulation analysis on the variability of the photon s...
International audienceThe runaway electron mechanism is of great importance for the understanding of...
The GEANT4-based Source code used for the Article : "Evaluation of Monte Carlo tools for high energy...