Tree Code for Collision Detection of Large Numbers of Particles Application for the Breit-Wheeler Process

Tree Code for Collision Detection of Large Numbers of Particles Application for the Breit-Wheeler Process

Collision detection of a large number N of particles can be challenging. Directly testing N particles for collision among each other leads to N 2 queries. Especially in scenarios, where fast, densely packed particles interact, challenges arise for classical methods like Particle-in-Cell or Monte-Car...

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Hauptverfasser: Jansen, Oliver, d'Humières, Emmanuel, Ribeyre, Xavier, Jequier, Sophie, Tikhonchuk, Vladimir
Format: Artikel
Sprache:eng
Schlagworte:
Physics - Computational Physics
Physics - High Energy Astrophysical Phenomena
Physics - High Energy Physics - Theory
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Zusammenfassung:Collision detection of a large number N of particles can be challenging. Directly testing N particles for collision among each other leads to N 2 queries. Especially in scenarios, where fast, densely packed particles interact, challenges arise for classical methods like Particle-in-Cell or Monte-Carlo. Modern collision detection methods utilising bounding volume hierarchies are suitable to overcome these challenges and allow a detailed analysis of the interaction of large number of particles. This approach is applied to the analysis of the collision of two photon beams leading to the creation of electron-positron pairs.
DOI:10.48550/arxiv.1608.01125