Overview of PHITS Ver.3.34 with particular focus on track-structure calculation

Ogawa Tatsuhiko; Hirata Yuho; Matsuya Yusuke; Kai Takeshi; Sato Tatsuhiko; Iwamoto Yosuke; Hashimoto Shintaro; Furuta Takuya; Abe Shin-ichiro; Matsuda Norihiro; Sekikawa Takuya; Yao Lan; Tsai Pi-En; Ratliff Hunter N.; Iwase Hiroshi; Sakaki Yasuhito; Sugihara Kenta; Shigyo Nobuhiro; Sihver Lembit; Niita Koji

doi:10.1051/epjn/2024012

EPJ Nuclear Sciences & Technologies (Jan 2024)

Overview of PHITS Ver.3.34 with particular focus on track-structure calculation

Ogawa Tatsuhiko,
Hirata Yuho,
Matsuya Yusuke,
Kai Takeshi,
Sato Tatsuhiko,
Iwamoto Yosuke,
Hashimoto Shintaro,
Furuta Takuya,
Abe Shin-ichiro,
Matsuda Norihiro,
Sekikawa Takuya,
Yao Lan,
Tsai Pi-En,
Ratliff Hunter N.,
Iwase Hiroshi,
Sakaki Yasuhito,
Sugihara Kenta,
Shigyo Nobuhiro,
Sihver Lembit,
Niita Koji

Affiliations

Ogawa Tatsuhiko: ORCiD; Japan Atomic Energy Agency
Hirata Yuho: Japan Atomic Energy Agency
Matsuya Yusuke: Japan Atomic Energy Agency
Kai Takeshi: Japan Atomic Energy Agency
Sato Tatsuhiko: ORCiD; Japan Atomic Energy Agency
Iwamoto Yosuke: Japan Atomic Energy Agency
Hashimoto Shintaro: Japan Atomic Energy Agency
Furuta Takuya: ORCiD; Japan Atomic Energy Agency
Abe Shin-ichiro: Japan Atomic Energy Agency
Matsuda Norihiro: Japan Atomic Energy Agency
Sekikawa Takuya: Japan Atomic Energy Agency
Yao Lan: Japan Atomic Energy Agency
Tsai Pi-En: ORCiD; Japan Atomic Energy Agency
Ratliff Hunter N.: Western Norway University of Applied Sciences, Høgskulen på Vestlandet
Iwase Hiroshi: ORCiD; Radiation Science Center, High Energy Accelerator Research Organization
Sakaki Yasuhito: Radiation Science Center, High Energy Accelerator Research Organization
Sugihara Kenta: Radiation Science Center, High Energy Accelerator Research Organization
Shigyo Nobuhiro: ORCiD; Kyushu University, Department of Applied Quantum Physics and Nuclear Engineering
Sihver Lembit: Department of Radiation Physics, Technische Universität Wien, Atominstitut
Niita Koji: Research Organization for Information Science and Technology

DOI: https://doi.org/10.1051/epjn/2024012
Journal volume & issue: Vol. 10
p. 13

Abstract

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This paper presents the latest updates on PHITS, a versatile radiation transport code, focusing specifically on track-structure models. Track structure calculations are methods used to simulate the movement of charged particles while explicitly considering each atomic reaction. Initially developed for radiation biology, these calculation methods aimed to analyze the radiation-induced damage to DNA and chromosomes. Several track-structure calculation models, including PHITS-ETS, PHITS-ETS for Si, PHITS-KURBUC, ETSART, and ITSART, have been developed and implemented for PHITS. These models allow users to study the behavior of various particles at the nano-scale across a wide range of materials. Furthermore, potential applications of track-structure calculations have also been proposed so far. This collection of track-structure calculation models, which encompasses diverse conditions, opens up new avenues for research in the field of radiation effects.

Published in EPJ Nuclear Sciences & Technologies

ISSN: 2491-9292 (Online)
Publisher: EDP Sciences
Country of publisher: France
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Nuclear engineering. Atomic power
Website: http://www.epj-n.org/

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