Quench stability against beam-loss in superconducting magnets at the 50 GeV proton beam line for the J-PARC neutrino experiment

Iwamoto Y.; Kimura N.; Ogitsu T.; Ohhata H.; Nakamoto T.; Tanabe K.; Ichikawa A.; Yamamoto A.

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Quench stability against beam-loss in superconducting magnets at the 50 GeV proton beam line for the J-PARC neutrino experiment

机译：J-PARC中微子实验在50 GeV质子束线上对超导磁体的束流失的猝灭稳定性

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The heat load on superconducting magnets induced by beam loss is a major subject to be solved for stable operation of the 50 GeV-0.75 MW J-PARC neutrino beam line. Heat load for a 10 W/point beam loss in an actual coil was calculated using the MARS code which simulates the actual magnet. Calculated heat load was up to 20 kJ/m3/pulse. Instantaneous heating of 0-40 kJ/m3/pulse was induced in Rutherford type cable in an experiment, and the thermal characteristic measured using SHe. The cable specimen for an experimental verification used the same structure as the superconducting cable for the magnet in the test. It was found that a heat pulse of 20 kJ/m3 caused an instantaneous temperature rise of 0.25 K in the experiment and will not induce a quench according to the quench simulation calculation.

机译：由束流损失引起的超导磁体上的热负荷是50 GeV-0.75 MW J-PARC中微子束流线稳定运行要解决的主要问题。使用模拟实际磁体的MARS代码计算出实际线圈中10 W /点波束损耗的热负荷。计算得出的热负荷高达20 kJ / m3 /脉冲。在实验中，在卢瑟福型电缆中引起了0-40 kJ / m3 /脉冲的瞬时加热，并使用SHe测量了热特性。用于实验验证的电缆样本使用与测试中用于磁体的超导电缆相同的结构。根据失超模拟计算发现，在实验中，20 kJ / m3的热脉冲引起0.25 K的瞬时温度升高，并且不会引起失超。

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来源
《IEEE Transactions on Applied Superconductivity 》 |2004年第2期| p.592-595| 共4页
作者
Iwamoto Y.; Kimura N.; Ogitsu T.; Ohhata H.; Nakamoto T.; Tanabe K.; Ichikawa A.; Yamamoto A.;
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作者单位

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类超导体、超导体材料 ; 半导体技术 ;
关键词
beam handling equipment; proton beams; superconducting cables; superconducting magnets; 0.25 K; 0.75 MW; 50 GeV; J-PARC neutrino experiment; MARS code; Rutherford type cable; beam-loss; heat load; proton beam line; quench simulation calculation; quench stability; super;

机译：束处理设备;质子束;超导电缆;超导磁体;0.25 K;0.75 MW;50 GeV;J-PARC中微子实验;MARS代码;卢瑟福型电缆;束损失;热负荷;质子束线;淬火模拟计算;淬火稳定性;

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专利

1. Development of a prototype of Superconducting combined function magnet for the 50 GeV proton beam line for the J-PARC neutrino experiment [J] . Nakamoto T., Higashi N., Ogitsu T., IEEE Transactions on Applied Superconductivity . 2005 ,第2期

机译：用于J-PARC中微子实验的50 GeV质子束线的超导组合磁体的原型开发
2. Design of superconducting combined function magnets for the 50 GeV proton beam line for the J-PARC neutrino experiment [J] . Nakamoto T., Higashi N., Ogitsu T., IEEE Transactions on Applied Superconductivity . 2004 ,第2期

机译：用于J-PARC中微子实验的50 GeV质子束线的超导组合磁体的设计
3. Superconducting magnet system at the 50 GeV proton beam line for the J-PARC neutrino experiment [J] . Ogitsu T., Makida Y., Kobayashi T., IEEE Transactions on Applied Superconductivity . 2004 ,第2期

机译：用于J-PARC中微子实验的50 GeV质子束线上的超导磁体系统
4. Conceptual design of a 2kW cryogenic system for the neutrino superconducting beam line magnet system in the J-PARC 50GeV proton accelerator. [C] . Y. Makida, Y. Doi, T. Haruyama, International Cryogenic Engineering Conference . 2005

机译：J-PARC 50GeV质子加速器中基下超导线磁体系统2kW低温系统的概念设计。
5. A measurement of R = sigma x B meson (proton antiproton going to W boson going to charged electron neutrino)/sigma x B meson (proton antiproton going to Z boson going to positron electron) using the CDF detector in proton antiproton collisions at 1800 GeV. [D] . Wahl, John Edward. 1999

机译：使用CDF检测器在1800 GeV的质子反质子碰撞中使用R = sigma x B介子（质子反质子到达W玻色子去带电电子中微子）/ sigma x B介子（质子反质子到达Z玻色子去正电子）。。
6. Study of inelastic nuclear interactions of 400 GeV/c protons in bent silicon crystals for beam steering purposes [O] . W. Scandale, F. Andrisani, G. Arduini, -1

机译：用于束控制的弯曲硅晶体中400 GeV / c质子的非弹性核相互作用的研究
7. Development of Superconducting Combined Function Magnets for the Proton Transport Line for the J-PARC Neutrino Experiment [O] . T. Nakamoto, Y. Ajima, Y. Fujii, -1

机译：J-PARC Neutrino实验的质子输送线超导组合函数磁体的研制

Quench stability against beam-loss in superconducting magnets at the 50 GeV proton beam line for the J-PARC neutrino experiment

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