A New Method of Simulation of Cosmic-ray Ensembles Initiated by Synchrotron Radiation

Oleksandr Sushchov; Piotr Homola; Marcin Piekarczyk; Ophir Ruimi; Kévin Almeida Cheminant; Olaf Bar; Łukasz Bibrzycki; Bohdan Hnatyk; Péter Kovács; Bartosz Łozowski; Michał Niedźwiecki; Sławomir Stuglik; Arman Tursunov; Tadeusz Wibig

doi:10.3390/sym14101961

A New Method of Simulation of Cosmic-ray Ensembles Initiated by Synchrotron Radiation

Oleksandr Sushchov^*
, Piotr Homola
, Marcin Piekarczyk
, Ophir Ruimi
, Kévin Almeida Cheminant
, Olaf Bar
, Łukasz Bibrzycki
, Bohdan Hnatyk
, Péter Kovács
, Bartosz Łozowski
, Michał Niedźwiecki
, Sławomir Stuglik
, Arman Tursunov
, Tadeusz Wibig

^*Corresponding author for this work

Racah Institute of Physics

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Cosmic rays interact with fields and background radiation as they propagate in space, producing particle cascades of various sizes, shapes and constituents. The potential observation of at least parts of such phenomena, referred to as cosmic-ray ensembles (CRE), from Earth would open a new channel of cosmic-ray investigation, since it might be a manifestation of fundamental symmetries of nature. Research dedicated to CRE is one of the main scientific objectives of the Cosmic-Ray Extremely Distributed Observatory (CREDO) Collaboration, and with this article we address one of the cornerstones of the relevant scientific program: the simulation method dedicated to CRE studies. Here we focus on CRE resulting from synchrotron radiation by high energy electrons as one of the most prevalent energy loss processes. Providing the example of simulation output analysis, we demonstrate the advantages of our approach as well as discuss the possibility of generalization of current research.

Original language	English
Article number	1961
Journal	Symmetry
Volume	14
Issue number	10
DOIs	https://doi.org/10.3390/sym14101961
State	Published - Oct 2022

Bibliographical note

Publisher Copyright:
© 2022 by the authors.

Keywords

CREDO Collaboration
cosmic rays
cosmic-ray ensembles
synchrotron radiation
ultra-high energy photons

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10.3390/sym14101961

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title = "A New Method of Simulation of Cosmic-ray Ensembles Initiated by Synchrotron Radiation",

abstract = "Cosmic rays interact with fields and background radiation as they propagate in space, producing particle cascades of various sizes, shapes and constituents. The potential observation of at least parts of such phenomena, referred to as cosmic-ray ensembles (CRE), from Earth would open a new channel of cosmic-ray investigation, since it might be a manifestation of fundamental symmetries of nature. Research dedicated to CRE is one of the main scientific objectives of the Cosmic-Ray Extremely Distributed Observatory (CREDO) Collaboration, and with this article we address one of the cornerstones of the relevant scientific program: the simulation method dedicated to CRE studies. Here we focus on CRE resulting from synchrotron radiation by high energy electrons as one of the most prevalent energy loss processes. Providing the example of simulation output analysis, we demonstrate the advantages of our approach as well as discuss the possibility of generalization of current research.",

keywords = "CREDO Collaboration, cosmic rays, cosmic-ray ensembles, synchrotron radiation, ultra-high energy photons",

author = "Oleksandr Sushchov and Piotr Homola and Marcin Piekarczyk and Ophir Ruimi and \{Almeida Cheminant\}, K{\'e}vin and Olaf Bar and {\L}ukasz Bibrzycki and Bohdan Hnatyk and P{\'e}ter Kov{\'a}cs and Bartosz {\L}ozowski and Micha{\l} Nied{\'z}wiecki and S{\l}awomir Stuglik and Arman Tursunov and Tadeusz Wibig",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = oct,

doi = "10.3390/sym14101961",

language = "אנגלית",

volume = "14",

journal = "Symmetry",

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T1 - A New Method of Simulation of Cosmic-ray Ensembles Initiated by Synchrotron Radiation

AU - Sushchov, Oleksandr

AU - Homola, Piotr

AU - Piekarczyk, Marcin

AU - Ruimi, Ophir

AU - Almeida Cheminant, Kévin

AU - Bar, Olaf

AU - Bibrzycki, Łukasz

AU - Hnatyk, Bohdan

AU - Kovács, Péter

AU - Łozowski, Bartosz

AU - Niedźwiecki, Michał

AU - Stuglik, Sławomir

AU - Tursunov, Arman

AU - Wibig, Tadeusz

PY - 2022/10

Y1 - 2022/10

N2 - Cosmic rays interact with fields and background radiation as they propagate in space, producing particle cascades of various sizes, shapes and constituents. The potential observation of at least parts of such phenomena, referred to as cosmic-ray ensembles (CRE), from Earth would open a new channel of cosmic-ray investigation, since it might be a manifestation of fundamental symmetries of nature. Research dedicated to CRE is one of the main scientific objectives of the Cosmic-Ray Extremely Distributed Observatory (CREDO) Collaboration, and with this article we address one of the cornerstones of the relevant scientific program: the simulation method dedicated to CRE studies. Here we focus on CRE resulting from synchrotron radiation by high energy electrons as one of the most prevalent energy loss processes. Providing the example of simulation output analysis, we demonstrate the advantages of our approach as well as discuss the possibility of generalization of current research.

AB - Cosmic rays interact with fields and background radiation as they propagate in space, producing particle cascades of various sizes, shapes and constituents. The potential observation of at least parts of such phenomena, referred to as cosmic-ray ensembles (CRE), from Earth would open a new channel of cosmic-ray investigation, since it might be a manifestation of fundamental symmetries of nature. Research dedicated to CRE is one of the main scientific objectives of the Cosmic-Ray Extremely Distributed Observatory (CREDO) Collaboration, and with this article we address one of the cornerstones of the relevant scientific program: the simulation method dedicated to CRE studies. Here we focus on CRE resulting from synchrotron radiation by high energy electrons as one of the most prevalent energy loss processes. Providing the example of simulation output analysis, we demonstrate the advantages of our approach as well as discuss the possibility of generalization of current research.

KW - CREDO Collaboration

KW - cosmic rays

KW - cosmic-ray ensembles

KW - synchrotron radiation

KW - ultra-high energy photons

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DO - 10.3390/sym14101961

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SN - 2073-8994

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JO - Symmetry

JF - Symmetry

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ER -

A New Method of Simulation of Cosmic-ray Ensembles Initiated by Synchrotron Radiation

Abstract

Bibliographical note

Keywords

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