Author:
Sakuma Fuminori,Aoki Kazuya,Fujioka Hiroyuki,Gogami Toshiyuki,Hidaka Yoshimasa,Hiyama Emiko,Honda Ryotaro,Hosaka Atsushi,Ichikawa Yudai,Ieiri Masaharu,Isaka Masahiro,Ishii Noriyoshi,Ishikawa Takatsugu,Komatsu Yusuke,Komatsubara Takeshi,Lim GeiYoub,Miwa Koji,Morino Yuhei,Nagae Tomofumi,Nagao Sho,Nakamura Satoshi N.,Nanjo Hajime,Naruki Megumi,Nemura Hidekatsu,Nomura Tadashi,Noumi Hiroyuki,Ohnishi Hiroaki,Ozawa Kyoichiro,Sawada Shinya,Sekihara Takayasu,Shim Sang-In,Shiomi Koji,Shirotori Kotaro,Tajima Yasuhisa,Takahashi Hitoshi,Takahashi Toshiyuki,Takeuchi Sachiko,Takizawa Makoto,Tamura Hirokazu,Tanida Kiyoshi,Ukai Mifuyu,Yamamoto Takeshi O.,Yamamoto Yasuo
Abstract
The J-PARC Hadron Experimental Facility was constructed with an aim to explore the origin and evolution of matter in the universe through experiments with intense particle beams. In the past decade, many results from particle and nuclear physics experiments have been obtained at the present facility. To expand the physics programs to as yet unexplored regions, the extension project of the Hadron Experimental Facility has been extensively discussed. This contribution presents the physics of the extension of the Hadron Experimental Facility to resolve issues related to strangeness nuclear physics, hadron physics, and flavor physics.
Reference13 articles.
1. Taskforce on the extension of the Hadron Experimental Facility, (2021)arXiv:2110.04462 [nucl-ex],
2. Beam commissioning and operation of the J-PARC main ring synchrotron
3. Hadron Physics at J-PARC
4. https://www.kek.jp/wp-content/uploads/2022/07/KEK-PIP2022.pdf
5. A two-solar-mass neutron star measured using Shapiro delay