A new method for derivation of the proton distribution radii through charge-changing cross sections for light-mass isotope chains

Gen Takayama; Mitsunori Fukuda; Masaomi Tanaka; Miki Fukutome; Yoko Kimura; Ryo Taguchi; Kaoru Watanabe; Daiki Nishimura; Hiroyuki Takahashi; Sora Sugawara; Chihaya Fukushima; Akira Ozawa; Tetsuaki Moriguchi; Asahi Yano; Takashi Ohtsubo; Maya Takechi; Mizuki Ogose; Norihide Noguchi; Kazuya Takatsu; Yukiya Kobayashi; Yuki Tazawa; Natsuki Shindo; Takeshi Suzuki; Takayuki Yamaguchi; Hibiki Seki; Masanori Kanda; Takuji Izumikawa; Shinji Sato; Shigekazu Fukuda; Atsushi Kitagawa; Kensaku Matsuta; Mototsugu Mihara; Yurika Ohtani

A new method for derivation of the proton distribution radii through charge-changing cross sections for light-mass isotope chains

ORAL

Abstract

We are attempting to derive the proton and neutron distribution radii by simultaneous measurements of the interaction cross sections and the charge-changing cross sections. The relationship between the proton distribution radius and the charge-changing cross section can be intuitively understood through geometric considerations. However, previous studies have revealed that the charge-changing cross section does not simply correspond to the proton distribution radius of the incident nucleus but also depends on the neutron distribution of the incident nucleus. Therefore, in this study, we devised a method to quantitatively evaluate the portion dependent on the neutron distribution and subtract it from the charge-changing cross section to derive the proton distribution radius. Specifically, we measured the charge-changing cross sections at ~ 170A MeV for He, Li, and Be isotopes on several target nuclides. Proton distribution radii of both projectiles and targets are known. As a result, we found that the contribution from the portion of the charge change cross section that depends on the neutron distribution of the incident nucleus is found to be particularly large for the proton target. Utilizing this fact, we will discuss a new method to derive the proton distribution radii.

Nov. 28, 2023, 8:15 PM – Nov. 28, 2023, 8:30 PM

Presenters

Gen Takayama
- Osaka University

Authors

Gen Takayama
- Osaka University
Mitsunori Fukuda
- Osaka University
- Osaka Univ.
Masaomi Tanaka
- Kyusyu University
- Kyushu University
- RIKEN Nishina Center / Kyushu University
- Kyushu Univ.
Miki Fukutome
- Osaka University
- Osaka Univ.
Yoko Kimura
- Osaka University
- Osaka Univ.
Ryo Taguchi
- Osaka University
- Osaka Univ.
Kaoru Watanabe
- Osaka Univ.
Daiki Nishimura
- Tokyo City University
- Tokyo city University
- Tokyo City Univ.
Hiroyuki Takahashi
- Tokyo City University
- Tokyo City Univ.
Sora Sugawara
- Tokyo City University
- Tokyo City Univ.
Chihaya Fukushima
- Tokyo City University
Akira Ozawa
- University of Tsukuba
- Tsukuba University
Tetsuaki Moriguchi
- University of Tsukuba
Asahi Yano
- University of Tsukuba
- Univ. of Tsukuba
Takashi Ohtsubo
- Niigata University
- Deparment of Physics, Niigata University
- Niigata Univ.
Maya Takechi
- Niigata University
- Department of Physics, Niigata University
- Niigata Univ.
Mizuki Ogose
- Niigata Univ.
Norihide Noguchi
- Niigata University
- Niigata Univ.
Kazuya Takatsu
- Niigata University
- Niigata Univ.
Yukiya Kobayashi
- Niigata University
- Niigata Univ.
Yuki Tazawa
- Niigata University
- Niigata Univ.
Natsuki Shindo
- Niigata Univ.
Takeshi Suzuki
- Saitama University
- Saitama Univ.
Takayuki Yamaguchi
- Saitama University
- Saitama Univ.
Hibiki Seki
- Saitama University
- Saitama Univ.
Masanori Kanda
- Saitama University
- Saitama Univ.
Takuji Izumikawa
- Niigata University
- Institute for Research Promotion, Niigata University
- CCRF
Shinji Sato
- QST
- QST-HIMAC
Shigekazu Fukuda
- QST
- QST-HIMAC
Atsushi Kitagawa
- QST
- QST-HIMAC
Kensaku Matsuta
- Osaka University
- Osaka Univ.
Mototsugu Mihara
- Osaka University
- Osaka Univ.
Yurika Ohtani
- Osaka Univ.