2024-12-07 12:46 |
[GSI-2024-01201]
Software
Alvarez Pol, H. ; Ayyad, Y. ; Duer, M. ; et al
GLAD-TPC Software
GLAD-TPC (HYDRA) is part of the R3BRoot software, the Monte Carlo simulation and experimental data analysis of the R3B (Reactions with Relativistic Radioactive Beams) nuclear physics experiments at the FAIR research center (Facility for Antiproton and Ion Research)..
Detailed record - Similar records
|
2024-12-07 12:43 |
[GSI-2024-01200]
Software
Alvarez Pol, H. ; Chatillon, A. ; Garcia Jimenez, G. ; et al
SOFIA software
The SOFIA module within the R3BRoot framework encapsulates the configuration and functionality of the SOFIA detectors, specifically designed for fission experiments conducted with the GLAD spectrometer. R3BRoot, built on the FairRoot framework, serves as a software environment for performing detailed Monte Carlo simulations and processing experimental data from R3B (Reactions with Relativistic Radioactive Beams) experiments. [...]
Detailed record - Similar records
|
2024-12-07 12:41 |
[GSI-2024-01199]
Software
De Filippo, E. ; Alvarez Pol, H. ; Rodriguez Sanchez, J. L. ; et al
AsyEOS software
The AsyEOS directory within the R3BRoot framework provides the full detector definitions, Monte Carlo simulation tools, and digitization algorithms for the AsyEOS experiment detectors, designed for use in the AsyEOS/R3B experimental campaign. R3BRoot, developed on top of the FairRoot framework, is a versatile toolkit for performing Monte Carlo simulations and processing experimental data. [...]
Detailed record - Similar records
|
2024-12-07 12:39 |
[GSI-2024-01198]
Software
Al-Turany, M. ; Alvarez Pol, H. ; Heil, M. ; et al
R3BRoot December 24 Release
The R3BRoot software is based on the FairRoot framework and can be used to perform Monte Carlo simulations and experimental data analysis of the R3B (Reactions with Relativistic Radioactive Beams) nuclear physics experiments at the GSI-FAIR research center (Facility for Antiproton and Ion Research). The user can create simulated data and/or perform analysis with the same framework. [...]
Detailed record - Similar records
|
2024-12-05 10:40 |
Detailed record - Similar records
|
2024-12-05 10:37 |
Detailed record - Similar records
|
2024-12-05 10:35 |
Detailed record - Similar records
|
2024-12-04 13:32 |
Detailed record - Similar records
|
2024-12-04 13:20 |
[GSI-2024-01159]
Software
Shingles, L. J.
lukeshingles/pynonthermal: V2024.07.04
Massively increase performance with new artistools rust atomic data reader and use of polars library. Full Changelog: https://github.com/lukeshingles/pynonthermal/compare/v2024.4.29...V2024.07.04:::::::::::::::pynonthermal is a non-thermal energy deposition (Spencer-Fano equation) solver.When high-energy leptons (electron and positrons) are injected into a plasma, they slow down by ionising and exciting atoms and ions, and Coulomb scattering with free (thermal) electrons. [...]
Detailed record - Similar records
|
2024-12-04 13:17 |
[GSI-2024-01158]
Software
Shingles, L. J.
lukeshingles/pynonthermal: v2024.4.29
Remove warnings in notebook Remove dependencies on argcomplete, coveralls, and flake8 Fix markdown readme in PyPI Full Changelog: https://github.com/lukeshingles/pynonthermal/compare/v2024.02.17...v2024.4.29:::::::pynonthermal is a non-thermal energy deposition (Spencer-Fano equation) solver.When high-energy leptons (electron and positrons) are injected into a plasma, they slow down by ionising and exciting atoms and ions, and Coulomb scattering with free (thermal) electrons. Keeping track of the rates of the processes is important for example, when modelling Type Ia supernovae at late times (>100 days). [...]
Detailed record - Similar records
|
|
|