电子冷却装置阴极激活及阴极表面温度计算

Oxide-cathode activation and surface temperature calculation of electron cooler

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摘要电子冷却在重离子加速器冷却储存环中用于束流冷却和累积。实验发现,电子冷却装置电子枪高压绝缘陶瓷的绝缘电阻值下降影响到电子冷却装置的正常运行。介绍了电子冷却装置的阴极更换、真空烘烤、阴极碱土金属碳酸盐的分解和阴极激活过程;在60 W的加热功率下,得到了10.6μA/V1.5的导流系数;用灰体辐射计算的典型工作状态下电子枪氧化物阴极发射面的温度为1 108 K,与实际测量的1 078 K相近;阴极首次激活不完全是电子枪使用中导流系数的增长原因。 The pollution on electron gun ceramic insulation of electron cooler restricted the operation of electron cooler at HIRFL-CSR main ring.To cool and accumulate ion beam well,the pollution was cleared and a new oxide-coated cathode was assembled.The processes of cathode replacement,vacuum chamber baking-out,and thermal decomposition of coating binders and alkaline earth metal carbonates,and cathode activation are presented.The electron gun perveance of 10.6 μA/V1.5 was attained under the heating power of 60 W.The typical surface temperature of oxide-coated cathode that is calculated through grey-body radiation is 1 108 K which shows a comparable result to the experimental measurement 1 078 K.The perveance growth of electron gun during the electron cooler operation is also explained by partial activation of the cathode.

作者李杰杨晓东冒立军李国宏原有进刘占稳张军辉杨晓天马晓明晏太来

机构地区中国科学院近代物理研究所中国科学院研究生院

出处《强激光与粒子束》 EI CAS CSCD 北大核心 2011年第2期499-502,共4页 High Power Laser and Particle Beams

基金国家自然科学基金项目(10975166) 国家自然科学基金青年科学基金项目(10905083)

关键词阴极激活阴极温度灰体辐射电子冷却 cathode activation cathode temperature grey-body radiation electron cooler

分类号 TL56 [核科学技术—核技术及应用]

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参考文献11

1Xia Jiawen, Zhan Wenlong, Wei Baowen, et al. The heavy ion cooler-storage-ring project (HIRFL-CSR) at Lanzhou[J]. Nuclear Instruments and Methods in Physics Research A, 2002, 488(1/2) :11-25.
2Parkhomchuk V V, Skrinsky A N . Cooling methods for charged particle beams[M]//Chao A W. Reviews of accelerator science and technology. Singapore: World Scientific Publishing Company, 2008: 237-257.
3Budker G I. Efficient method for damping of particle oscillations in proton and antiproton storage ring[J]. Alomnaya Energiya, 1967, 22: 346-348.
4Jousten K. Thermal outgassing[C]//Turner S. CERN Accelerator School: Vacuum Technology. 1999: 111-125.
5李杰,杨晓东,冒立军,卢旺,王志学,赵红卫,张玮,燕宏斌,张军辉,V.V.Parkhomchuk,BINP ElectronC ooler Group.HIRFL-CSR电子冷却装置电子枪的参数测试[J].原子能科学技术,2007,41(1):94-97. 被引量：3
6Zhang Mingchen Zhang Honglai Liu Pukun Su Xiaobao Li Yutao.ACCELERATED LIFE TEST STUDIES OF NEW COATED DISPENSER CATHODES[J].Journal of Electronics(China),2007,24(5):717-720. 被引量：2
7Barnes B T. Total radiation from polished and from soot-covered nickel[J]. PhysRev, 1929, 34(7):1026-1030.
8Suydam V A. Total radiation frommetals[J]. PhysRev, 1915, 5(6): 497-509.
9Gray D E. American Institute of Physics handbook[M]. New York: McGraw Hill, 1963: 6-164.
10Gaertner G, den Engelsen D. Hundred years:anniversary of the oxide cathode-A historical review[J]. Applied Surface Science, 2005, 251(1/4): 24-30.

二级参考文献10

1聂世琦,姚宗熙.阴极寿命的电流加速试验方法机理及结果[J].真空科学与技术,1997,17(1):61-65. 被引量：1
2BUBLEY A V,GONCHAROV A,IVANOV A,et al.The electron gun with variable beam profile for optimization of electron cooling[C]//Proceedings of EPAC2002.Paris,France:Cite de la Science et de l'Industrie,2002:1 356-1 358.
3BELL M,BELL J S.Capture of cooling electrons by cool protons[J].Particle Accelerators,1982,12:49-52.
4茆诗松,王玲玲著.加速寿命试验[M]. 科学出版社, 1997
5J.M.Roquais,F.Poret,R.le Doze,et al.Barium depletion study on impregnated cathodes and life time prediction[].International Vacuum Electron Sources Conference (IVESC‘)Technical Digest.2002
6A.Shroff,G.Firmain.High reliability TWTs for satellite applications[].International Electron Devices Meeting (IEDM).1984
7L.Dressman.Triservice/NASA cathode life test fa- cility[].International Vacuum Electron Sources Con- ference (IVESC‘)Technical Digest.2002
8Akira Chiba and Yasuhiro Akiyama.Life test evaluation of 411M cathode for highly reliable satellite TWTs[].Applied Surface Science.1999
9杨晓东,V.V.Parkhomchuk,赵红卫,王志学,BINP Electron Cooler Group.HIRFL-CSR主环电子冷却装置调试[J].高能物理与核物理,2003,27(8):726-730. 被引量：8
10杨晓东,Parkhomchuk V.V.,赵红卫,张文志,宋明涛,原有进,夏佳文.HIRFL-CSR主环电子冷却模拟计算[J].高能物理与核物理,2003,27(9):824-827. 被引量：3

共引文献2

1王小霞,赵青兰,廖显恒,孟鸣凤,李云.一种用于重离子加速器电子冷却装置阴极的研制[J].电子与信息学报,2010,32(12):2999-3002. 被引量：3
2杨晓东,李杰,冒立军,李国宏,马晓明,晏太来,宋明涛,原有进,杨建成,毛瑞士,赵铁成,李朋,张玮,殷达钰,柴伟平,贾欢,郑文亨,张小虎.兰州重离子加速器冷却储存环中电子冷却性能[J].强激光与粒子束,2012,24(10):2435-2440. 被引量：1

1赵青,李宏福,罗勇,邓学,喻胜,王丽.双阳极磁控注入枪束流特性的研究[J].强激光与粒子束,2004,16(6):764-766. 被引量：4
2V. V. Parkhomchuk,BINP Electron Cooling Group.Progress of HIRFL-CSR Electron Cooling Device for Experimental Ring[J].近代物理研究所和兰州重离子加速器实验室年报：英文版,2004(1):144-144.
3张文志,叶峰,秦玖.重离子加速器冷却储存环高频腔体设计[J].强激光与粒子束,1996,8(3):333-336. 被引量：1
4杨晓东,V.V.Parkhomchuk.HIRFL-CSR实验环电子冷却装置参数优化[J].强激光与粒子束,2000,12(6):771-775. 被引量：13
5骆邦其.RELAP5／MOD1程序燃料温度计算的问题[J].核工业自动化,1994(1):11-14.
6杨晓天,张军辉,蒙峻,张新俊,张喜平,侯生军,胡振军,牛志伟,郝斌干,吴慧敏.HIRFL-CSR超高真空系统[J].真空,2003,40(5):31-36. 被引量：2
7Zhang Xiping and Hu Zhenjun.Building up of CSRm Vacuum Baking-out System[J].近代物理研究所和兰州重离子加速器实验室年报：英文版,2004(1):149-149.
8Prototype of Coil for HIRFL-CSR Electron Cooling Devices[J].近代物理研究所和兰州重离子加速器实验室年报：英文版,2000(1):72-72.
9杨震华,王元璋.光学速调管的自发辐射计算[J].强激光与粒子束,1999,11(5):575-578. 被引量：1
10王耿介.四电极和五电极离子注入机的离子光学[J].核聚变与等离子体物理,1995,15(4):34-39. 被引量：1

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电子冷却装置阴极激活及阴极表面温度计算

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