Dav's repositories
COSMIC_RAY_THUNDERSTORM-Geant4
Geant4-based code for simulation effect of thunderstorms electric fields on cosmic ray fluxes
TGF-TEB-Propagation-Geant4
Geant4 based code to propagate Terrestrial Gamma-Ray Flashes' photons and associated electron/positron beams in Earth atmosphere ionosphere magnetosphere
GEANT4-easy-install-scripts-Linux-Mac
Set of scripts to easily download, compile and install GEANT4 from source.
TGF-ATMOS-ABSORPTION
GEANT4 project to evaluate the absorption (or transmitance) of TGF photons from source to satellite altitude
TGF-Simulation-Library
MATLAB code to generate simulated Terrestrial Gamma-Ray Flashes (TGF) spectrums, lightcurves and time-energy matrices for given altitude, beaming angle and radial distance.
asim-teb-paper-1-data-repo
Data repository of the ASIM TEB paper "The First Terrestrial Electron Beam Observed by The Atmosphere-Space Interactions Monitor" by D. Sarria et al.
ISS_AGILE_FERMI_coordinates_calculator
Python3 code to retrieve GPS coordinates and ECEF velocity vectors of the satellites: Fermi (GLAST), AGILE, and ISS (International Space Station) at any time
TGF-Propagation-Geant4
Geant4-based code to propagate Terrestrial Gamma-Ray Flashes' photons in Earth atmosphere
asim-teb-paper-2-data-repo
Data repository of the paper "Constraining spectral models of a terrestrial gamma-ray flash from a terrestrial electron beam observation by the Atmosphere-Space Interactions Monitor" by D. Sarria et al.
COSMIC_RAY_FLUXES
This program computes the fluxes (/cm2/s) of secondary cosmic particles as a function of altitude. Based on the PARMA (Fortran 90) codebase
COSMIC_RAY_GENERATOR
C++ + Fortran code based on PARMA to generate cosmic ray particles at a given altitude in a given energy range
assimp
The official Open-Asset-Importer-Library Repository. Loads 40+ 3D-file-formats into one unified and clean data structure.
CMAKE_g4
CMake version for geant4 installation scripts
HDF5_g4
HDF5 version 1 10 1 permanent persistent access to .tar.gz
ISS_SkySource_Incoming_Direction_LVLH
Calculate direction of a source in the sky (specified in equatorial coordinates J2000) in the International Space Station (ISS) LVLH frame of reference. Also evaluates the minimum altitude reached by the line of sight (ISS<->Source). Uses Python Skyfield Library.
msise00
NRL MSISE-00 atmospheric model-- in Python and Matlab!
zlib
zlib repository for geant4 install scripts