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Venturi tube application in high power test of the SRF module 被引量:1

Venturi tube application in high power test of the SRF module
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摘要 In the superconducting RF module, the dissipation power of the niobium cavity is an important parameter. In the Superconducting radio frequency (SRF) module's acceptance test at Shanghai Synchrotron Radiation Facility (SSRF), the Venturi tube is used to measure the quality factor of SRF cavity at 4.2 K. During the test, the venturi tube is be calibrated by increasing heat load with internal heater. In this paper, the horizontal test principle and venturi effect are briefly introduced. The authors find out a correct way to calibrate the venturi tubes, the calibration results are presented here. From the calibration results, one can deduce the static loss of each module, the source of static loss is also analyzed. In the superconducting RF module, the dissipation power of the niobium cavity is an important parameter. In the Superconducting radio frequency (SRF) module's acceptance test at Shanghai Synchrotron Radiation Facility (SSR.F), the Venturi tube is used to measure the quality factor of SRF cavity at 4.2 K. During the test, the venturi tube is be calibrated by increasing heat load with internal heater. In this paper, the horizontal test principle and venturi effect are briefly introduced. The authors find out a correct way to calibrate the venturi tubes, the calibration results are presented here. From the calibration results, one can deduce the static loss of each module, the source of static loss is also analyzed.
作者 MA Guangming LIU Jianfei HOU Hongtao MA Zhenyu FU Zechuan ZHANG Zhigang ZHAO Zhentang
机构地区 Shanghai Institute of Applied Physics Graduate University of Chinese Academy of Sciences Shanghai Key Lab. of Cryogenics & Superconducting RF Technology
出处 《Nuclear Science and Techniques》 SCIE CAS CSCD 2009年第3期129-132,共4页 核技术(英文)
基金 Supported by Shanghai Synchrotron Radiation Facility
关键词 文氏管 加热器 核技术 研究 RF superconductivity, Venturi, Horizontal test, Static loss
分类号 TL5 [核科学技术—核技术及应用]
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参考文献8

  • 1Padamsee H, Barnes P, Chen C, et al. Particle Accelerators, 1992, 40: 17-41.
  • 2Jensen M R F, Alex J, Pekeler M, et al. Status of the Diamond Storage Ring Radio Frequency System. Proceedings of the European Particle Accelerator Conference. Edinburgh, Scotland: 2006: 445-447.
  • 3Wang C, Chang L H, Lin M C. Commissioning Experience of Superconducting Radio Frequency Systems for the Taiwan Light Source. Proceedings of the Asian Particle Accelerator Conference. Indore, India: 2007:549-551.
  • 4Akai K, Akasaka N, Ebihara K, et al. Nuclear Instruments and Methods in Physics Research Section A, 2003.499(1): 45-65.
  • 5WANG Guangwei, SHA Peng, PAN Weimin, et al. Chinese Physics C (in Chinese), 2008. 32 (Supplement Ⅰ): 169-171.
  • 6DAI Zhimin, LIU Guimin, YIN Lixin, et al. Status of the SSRF Storage Ring. Proceedings of the European Particle Accelerator Conference. Genoa, Italy: 2008: 1998-2000.
  • 7Song Weirong, Bai Hongyu, Wang Juanjuan, Cryogenics and Superconductivity (in Chinese), 2001, 29(2): 21-25.
  • 8Pekeler M, Dunkel K, Peiniger M, et al. RF Activities of ACCEL Instruments in ASIA-PACIFIC. Proceedings of the Asian Particle Accelerator Conference. Indore, India: 2007: 791-793.

同被引文献5

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二级引证文献7

Nuclear Science and Techniques
2009年 第3期

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