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Development and test of SEOP neutron spin filter in Japan

日本におけるSEOP方式中性子スピンフィルターの開発

吉良 弘; 坂口 佳史; 奥 隆之; 鈴木 淳市; 中村 充孝; 新井 正敏; 加倉井 和久; 遠藤 康夫; 有本 靖*; 猪野 隆*; 清水 裕彦*; 神山 崇; 堤 健之*; 大山 研司*; 平賀 晴弘*; 山田 和芳; Chang, L.-J.

Kira, Hiroshi; Sakaguchi, Yoshifumi; Oku, Takayuki; Suzuki, Junichi; Nakamura, Mitsutaka; Arai, Masatoshi; Kakurai, Kazuhisa; Endo, Yasuo; Arimoto, Yasushi*; Ino, Takashi*; Shimizu, Hirohiko*; Kamiyama, Takashi; Tsutsumi, Kenji*; Oyama, Kenji*; Hiraka, Haruhiro*; Yamada, Kazuyoshi; Chang, L.-J.

Polarized neutron scattering techniques are very important and powerful tools to study the fundamental structures of magnetic materials and soft matters. $$^{3}$$He has a very large absorption cross section for only neutrons in opposite spin state to that of the $$^{3}$$He nucleus. The scattering cross section of $$^{3}$$He is small. These two features allow nuclear spin polarized $$^{3}$$He gas to work as a NSF. Compared with other spin filters such as Heusler alloys and magnetic supermirrors, the $$^{3}$$He gas NSF have following advantages: it can polarize various energy of neutron such as cold, thermal and hot neutrons, it can work for broadband neutrons and it can be used for wide area and large divergence neutron beams. These characteristics of polarized $$^{3}$$He are convenient in use with J-PARC as NSF. We began the development of the on beam SEOP system aiming to use it s a NSF for incident beam polarisation and polarisation analysis. In this paper, we report the current development of SEOP system in Japan.

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パーセンタイル:59.04

分野:Physics, Condensed Matter

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