Chemical Environmental Effects on Muon Transfer Process in Low Pressure Mixture Gases; H2+CO and H2+CO2

Go Yoshida; 吉田 剛; Kazuhiko Ninomiya; 二宮和彦; Makoto Inagaki; 稲垣 誠; Wataru Higemoto; 髭本 亘; Naritoshi Kawamura; 河村成肇; Koichiro Shimomura; 下村浩一郎; Yasuhiro Miyake; 三宅康博; Taichi Miura; 三浦太一; Michael Kenya Kubo; 久保謙哉; Atsushi Shinohara; 篠原 厚

低圧の混合ガス試料（H₂+CO, H₂+CO₂）中でのミュオン転移における化学効果Chemical Environmental Effects on Muon Transfer Process in Low Pressure Mixture Gases; H₂+CO and H₂+CO₂

吉田剛¹，二宮和彦¹，稲垣誠¹，髭本亘²，河村成肇³，下村浩一郎³，三宅康博³，三浦太一⁴，久保謙哉⁵，篠原厚¹Go Yoshida¹, Kazuhiko Ninomiya¹, Makoto Inagaki¹, Wataru Higemoto², Naritoshi Kawamura³, Koichiro Shimomura³, Yasuhiro Miyake³, Taichi Miura⁴, Michael Kenya Kubo⁵, Atsushi Shinohara¹

¹ 大阪大学大学院理学研究科Graduate School of Science, Osaka University ◇ 560–0043　大阪府豊中市待兼山町1–1 ◇ 1–1 Machikaneyama, Toyonaka-shi, Osaka 560–0043, Japan

² 日本原子力研究開発機構先端基礎研究センターAdvanced Science Research Center, Japan Atomic Energy Agency ◇ 319–1195　茨城県那珂郡東海村白方白根2–4 ◇ 2–4 Shirakata-Shirane, Tokai-mura, Naka-gun, Ibaraki Pref. 319–1195, Japan

³ 高エネルギー加速器研究機構物質構造科学研究所Institute of Materials Structure Science, High Energy Accelerator Research Organization (KEK) ◇ 305–0801　茨城県つくば市大穂1–1 ◇ 1–1 Oho, Tsukuba-shi, Ibaraki Pref. 305–0801, Japan

⁴ 高エネルギー加速器研究機構放射線科学センターRadiation Science Center, High Energy Accelerator Research Organization (KEK) ◇ 305–0801　茨城県つくば市大穂1–1 ◇ 1–1 Oho, Tsukuba-shi, Ibaraki Pref. 305–0801, Japan

⁵ 国際基督教大学教養学部College of Liberal Arts, International Christian University ◇ 181–8585　東京都三鷹市大沢3丁目10–2 ◇ 3–10–2 Osawa, Mitaka-shi, Tokyo 181–8585, Japan

受付日：2015年10月7日Received: October 7, 2015

受理日：2016年1月8日Accepted: January 8, 2016

発行日：2016年3月15日Published: March 15, 2016

陽子と負ミュオンからなるミュオン水素原子は，核電荷がキャンセルされた中性の粒子のように振る舞い，他の原子の原子核近傍まで接近し，ミュオン転移過程と呼ばれるミュオンの移動反応を起こす。今回，我々はCOとCO₂の2つの化合物に対しミュオン転移過程の観察を行い，ミュオン特性X線の測定からミュオン原子形成過程の化合物による変化を調べた。今回の実験条件では化合物による転移過程の違いについて，統計的に有意な差は見いだせなかったが，転移によるミュオンの捕獲比など，捕獲されたミュオンの初期状態について詳細なテータを得ることができた。

A muonic hydrogen atom, which consists of a negative muon and a proton, behaves as an electrically neutral particle. As such, it can approach another nucleus without Coulomb repulsion, allowing the muon to be directly transferred to inner muon levels of the nucleus and form a muonic atom. We studied muonic atom formation via this muon transfer process in two chemical environments; CO and CO₂ (CO has one oxygen atom and one triple bond, and CO₂ has two oxygen and two double bond), to examine the effects of the environments on muonic atom formation. The muon capture probability and intensity pattern of muonic Xrays for carbon and oxygen atoms were determined through measurement of muonic Xrays emitted after muonic atom formation. By comparing the results of CO and CO₂ to each other, we found that the muon capture probabilities and initial muon quantum levels for carbon and oxygen atoms resulting from the muon transfer process do not depend on the chemical environment, though a significant effect of the chemical environmental was observed for the direct muon capture process. The effect of the chemical environmental in muonic atom formation via the muon transfer process is too small to detect statistically significant in our experimental system.

Key words: muonic atom; muonic hydrogen; muon capture; muon transfer; muonic Xray; carbon oxide; low pressure gas

RADIOISOTOPES

原著Article

低圧の混合ガス試料（H₂+CO, H₂+CO₂）中でのミュオン転移における化学効果Chemical Environmental Effects on Muon Transfer Process in Low Pressure Mixture Gases; H₂+CO and H₂+CO₂

低圧の混合ガス試料（H2+CO, H2+CO2）中でのミュオン転移における化学効果Chemical Environmental Effects on Muon Transfer Process in Low Pressure Mixture Gases; H2+CO and H2+CO2

低圧の混合ガス試料（H₂+CO, H₂+CO₂）中でのミュオン転移における化学効果Chemical Environmental Effects on Muon Transfer Process in Low Pressure Mixture Gases; H₂+CO and H₂+CO₂