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    • 4. 发明专利
    • Method of manufacturing superconductive high frequency acceleration cavity, and superconductive high frequency acceleration cavity
    • 制造超导高频加速孔的方法及超导高频加速孔
    • JP2009135049A
    • 2009-06-18
    • JP2007311541
    • 2007-11-30
    • Toshiba Corp株式会社東芝
    • SHIBUYA SUMIICHIORIGASA TOMOFUMIKAMIKUBO HIROKI
    • H05H7/20B21D26/033C23C4/06H05H1/32H05H1/42
    • PROBLEM TO BE SOLVED: To manufacture a superconductive high frequency acceleration cavity having no bead line due to welding without requiring time and effort at a low cost. SOLUTION: In a method of manufacturing a superconductive high frequency acceleration cavity, an acceleration cavity body 32 is manufactured by a superconductive material, the cavity body 32 being applied for high frequency acceleration and comprising: iris portions 30a, 30a connected to beam ports 33a, 33a on both end sides along the charged particle beam axis; and equatorial portions 31a, 31b in the middle. The method includes: a first step of obtaining the acceleration cavity body 32 by carrying out a bulge process to the superconductive material; and a second step of coating a superior thermal conduction material on the outside surface of the acceleration cavity body 32 thus obtained by the first step. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了制造由于焊接而不需要花费时间和精力的超导高频加速腔,其没有焊道线。 解决方案:在制造超导高频加速腔的方法中,通过超导材料制造加速腔体32,腔体32被施加用于高频加速,并且包括:连接到光束的光圈部分30a,30a 沿着带电粒子束轴的两端侧的端口33a,33a; 赤道部31a,31b在中间。 该方法包括:第一步骤,通过对超导材料进行凸起处理来获得加速腔体32; 以及第二步骤,通过第一步骤在加速腔体32的外表面上涂覆优良的导热材料。 版权所有(C)2009,JPO&INPIT
    • 10. 发明专利
    • ION ACCELERATING ELECTRODE PLATE AND ITS PRODUCTION
    • JPH116057A
    • 1999-01-12
    • JP15969097
    • 1997-06-17
    • TOSHIBA CORP
    • SHIBUYA SUMIICHIICHIHASHI KOJI
    • H05H1/22C23C14/32H01J27/02H01J37/08H05H5/02
    • PROBLEM TO BE SOLVED: To produce an ion accelerating electrode plate having high cooling efficiency by using a sheet composed of inexpensive metallic material. SOLUTION: Plural cooling grooves 2 are formed all over in the surface of a substrate 3 composed of copper or copper alloy. Each of the cooling grooves 2 is filled with a filling material 4 having a shape equal to that of the cooling groove 2 and capable of being removed by dissolution, by which the surface in which the cooling grooves are formed is made plane. The resultant plane surface in which the cooling grooves are formed is coated with a layer of copper or copper alloy equal to a sheet, by which a sheet-like metallic material layer 5 is formed on the surface in which the cooling grooves are formed. Subsequently, the filling material 4 is removed by dissolution from the substrate 3 on which the metallic material layer 5 is formed, by which plural cooling water passages 2a consisting of the plural cooling grooves 2 and the metallic material layer 5 is formed. Further, a beam hole 7 for ion beam extraction is formed by working between the adjacent cooling water passages 2a among the plural cooling water passage.