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Featured researches published by Hajime Mizuno.
Nuclear Instruments and Methods | 1980
Masanori Kobayashi; Gen'ichi Horikoshi; Hajime Mizuno
Abstract The vacuum system for the electron storage ring in the Photon Factory project is now under construction. In the beginning, we chose aluminum as the predominant material for the beam duct because of its cooling and forming properties, and ICF flanges for the connections because of its high reliability. These choices compelled us to employ some kind of transition material. Our tests showed that the transition between aluminum alloy (Al) and stainless steel (SUS) can be made either by using an Al-SUS clad plate (by explosion- and diffusion-bonding) or TIG welding with Ag and Ni plates in the spaces between. The vacuum system forms an elliptical ring with circumference of 187 m, and is mainly composed of three kinds of beam ducts and their pumping units. A B-type duct made of Al is installed at every bending magnet section, and has a passage for the distributed ion pump (DIP) along it inner arc wall. Q-type ducts can be classified into two kinds of straight ducts, types a and type b. Type-a duct made of Al is partially indented for the in-situ Ar discharge cleaning electrode, while type-b duct is made of SUS without any additional component. About 28 DIP units, 48 sputter ion pumps and 6 units of roughing pump will be installed around the ring. The design of the rough pumping units is in progress.
Shinku | 1988
Hajime Ishimaru; Takashi Momose; Katsuya Narushima; Hajime Mizuno; K. Kanazawa; Tsumoru Shintake; Yusuke Suetsugu; Hiromi Hisamatsu; Masayuki Shimamoto; Kenji Mori; Mitsuru Nakagawa; Gen'ichi Horikoshi
最 も大 きな 問題 はDIPの カ ソー ド材 料 で あ った. 1986年12月 に先行 して8台(約1000 mmLの 単位電極 を 6連 結 した ものを1台 と呼び この1台 は偏 向マグネ ッ ト 1台 に対応 す る)のAl-DIPの カ ソー ドをTiに 交 換 し た.1月 の運転 でTi-DIPの 排 気特 性 を検 討 した 結果 (Ti-DIPの 特性 については本連合講 演会で発表),す べ てのDIP264台 に つい て交換 したほ うが よい と決断 し 1987年 春の シャッ トダウンに作業 を行 った.次 の問題 は DCセ パ レータの電極構造 であ った.16台 のDCセ パ レ ータは ビームのない場合 は平行平板 電極 に±約90kVを 安定に印加保持する ことができる.と ころが ビームがあ る状態 では2台 が最悪 の場合,±20kVで も異常放 電を 起 こし,DCセ パ レータ として機能 しなか った.こ れは ビームに伴 う高周波壁電流の影響 で,高 電圧導入部 と並
Shinku | 1984
Takashi Momose; Ozwald Gröbner; Gen'ichi Horikoshi; Hajime Ishimaru; K. Kanazawa; Masanori Kobayashi; Hajime Mizuno; Katsuya Narushima; Hiromi Watanabe
Shinku | 1987
Hajime Ishimaru; Takashi Momose; Katuya Narushima; Hajime Mizuno; K. Kanazawa; Yusuke Suetugu; Hiromi Watanabe; Masayuki Shimamoto; Gen'ichi Horikoshi
Archive | 1987
Hajime Ishimaru; Hiromi Hisamatsu; Gen'ichi Horikoshi; K. Kanazawa; Hajime Mizuno; Takashi Momose; Katsuya Narushima; Masayuki Shimamoto; Yusuke Suetsugu
Shinku | 1986
Takashi Momose; K. Kanazawa; Hajime Mizuno; Katsuya Narushima; Masayuki Shimamoto; Hiromi Watanabe; Hajime Ishimaru
Shinku | 1985
Hajime Ishimaru; Takashi Momose; Katsuya Narushima; Hajime Mizuno; K. Kanazawa; Hiromi Watanabe; Masayuki Shimamoto; Gen'ichi Horikoshi
Shinku | 1985
Takashi Momose; K. Kanazawa; Katsuya Narushima; Hajime Mizuno; Hajime Ishimaru
Shinku | 1985
Hajime Ishimaru; Takashi Momose; Katsuya Narushima; Hajime Mizuno; K. Kanazawa; T. Kubo; Hiromi Watanabe; Masanori Kobayashi; Gen'ichi Horikoshi
Shinku | 1985
Masahiro Miyao; Masakazu Yoshioka; Toru Kamei; Isamu Sato; Koji Takata; Yasutaka Fukushima; Hiroshi Matsumoto; T. Shidara; Tsumoru Shintake; Hajime Mizuno; H. Kuroda; Hiroshi Nishimura; Noboru Nakano; Seishi Takeda
