Pranav Sampathkumar
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View article: Overview of the CORSIKA 8 astroparticle simulation framework
Overview of the CORSIKA 8 astroparticle simulation framework Open
View article: Simulating radio emissions from particle showers in complex media with CORSIKA 8
Simulating radio emissions from particle showers in complex media with CORSIKA 8 Open
View article: A Generative Neural Network for the Prediction of Radio Pulses from Extensive Air Showers
A Generative Neural Network for the Prediction of Radio Pulses from Extensive Air Showers Open
View article: From collider to cosmic rays: Pythia 8/Angantyr for air shower simulations in CORSIKA 8
From collider to cosmic rays: Pythia 8/Angantyr for air shower simulations in CORSIKA 8 Open
View article: Simulating radio emission from extensive air showers with CORSIKA 8
Simulating radio emission from extensive air showers with CORSIKA 8 Open
View article: Generative Neural Network for Simulating Radio Emission from Extensive Air Showers
Generative Neural Network for Simulating Radio Emission from Extensive Air Showers Open
Cosmic ray shower detection using large radio arrays has gained significant traction in recent years. With massive improvements in signal modelling and microscopic simulations, the analysis of incoming events is still severely limited by t…
View article: Neural networks for cosmic ray simulations
Neural networks for cosmic ray simulations Open
A neural network based model in order to learn the solution to the 1D cascade equation governing the evolution of Extensive Air Showers (EAS) is presented. The neural network is then used to generate the spectra of secondary particles at e…
View article: The particle-shower simulation code CORSIKA 8
The particle-shower simulation code CORSIKA 8 Open
CORSIKA up to version 7 has been the most-used Monte Carlo code for simulating extensive air showers for more than 20 years. Due to its monolithic, Fortran-based software design and hand-optimized code, however, it has become difficult to …
View article: Simulations of cross media showers with CORSIKA 8
Simulations of cross media showers with CORSIKA 8 Open
The CORSIKA 8 project aims to develop a versatile and modern framework for particle shower simulations that meets the new needs of experiments and addresses the caveats of existing codes. Of particular relevance is the ability to compute p…
View article: Parallel processing of radio signals and detector arrays in CORSIKA 8
Parallel processing of radio signals and detector arrays in CORSIKA 8 Open
This contribution describes some recent advances in the parallelization of the generation and processing of radio signals emitted by particle showers in CORSIKA 8. CORSIKA 8 is a Monte Carlo simulation framework for modeling ultra-high ene…
View article: Simulating radio emission from air showers with CORSIKA 8
Simulating radio emission from air showers with CORSIKA 8 Open
CORSIKA 8 is a new framework for air shower simulations implemented in modern C++17, based\non past experience with existing codes like CORSIKA 7. The flexible and modular structure of\nthe project allows the development of independent mod…
View article: Validation of Electromagnetic Showers in CORSIKA 8
Validation of Electromagnetic Showers in CORSIKA 8 Open
The air shower simulation code CORSIKA has served as a key part of the simulation chain for\nnumerous astroparticle physics experiments over the past decades. Due to retirement of the original\ndevelopers and the increasingly difficult mai…
View article: Comparison and efficiency of GPU accelerated optical light propagation in CORSIKA~8
Comparison and efficiency of GPU accelerated optical light propagation in CORSIKA~8 Open
AI accelerators have proliferated in data centers in recent years and are now\nalmost ubiquitous. In addition, their computational power and, most\nimportantly, their energy efficiency are up to orders of magnitude higher than\nthat of tra…
View article: CORSIKA 8 -- Contributions to the 37th International Cosmic Ray\n Conference in Berlin Germany (ICRC 2021)
CORSIKA 8 -- Contributions to the 37th International Cosmic Ray\n Conference in Berlin Germany (ICRC 2021) Open
Compilation of the six contributions to the ICRC conference 2021 by the\nCORSIKA 8 Collaboration. The status of the project is illustrated. In\nparticular, the secondary hadron as well as the electromagnetic cascades are\nbeing validated i…
View article: CORSIKA 8 -- Contributions to the 37th International Cosmic Ray Conference in Berlin Germany (ICRC 2021)
CORSIKA 8 -- Contributions to the 37th International Cosmic Ray Conference in Berlin Germany (ICRC 2021) Open
Compilation of the six contributions to the ICRC conference 2021 by the CORSIKA 8 Collaboration. The status of the project is illustrated. In particular, the secondary hadron as well as the electromagnetic cascades are being validated indi…
View article: Hadron cascades in CORSIKA 8
Hadron cascades in CORSIKA 8 Open
We present characteristics of hadronic cascades from interactions of cosmic rays in the atmosphere, simulated by the novel CORSIKA 8 framework. The simulated spectra of secondaries, such as pions, kaons, baryons and muons, are compared wit…
View article: GPU Accelerated optical light propagation in CORSIKA8
GPU Accelerated optical light propagation in CORSIKA8 Open
Optical photons, created from fluorescence or Cherenkov emission in atmospheric cascades induced through high energetic cosmic rays are of major interest for several experiments. Experiments like CTA require a significant amount of computi…
View article: Electromagnetic Shower Simulation for CORSIKA 8
Electromagnetic Shower Simulation for CORSIKA 8 Open
Extensive air showers in astroparticle physics experiments are commonly simulated using CORSIKA.\nThe electromagnetic shower component has been treated using EGS4 in the Fortran 77-based versions, which have been developed in the last thir…
View article: Status of the novel CORSIKA 8 air shower simulation framework
Status of the novel CORSIKA 8 air shower simulation framework Open
The CORSIKA 8 project is an international collaboration of scientists working together to implement a modern, flexible, robust and efficient framework for the simulation of ultra-high energy secondary particle cascades in matter. While the…