射频超导腔的研究新进展
Recent progresses on RF superconductivity
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摘要: 射频超导谐振腔已经大规模地应用到粒子加速器领域,其优越之处在于它可以在CW模式或长宏脉冲模式下,提供高的加速梯度。射频超导已经成为自由电子激光和能量回收直线加速器的关键技术。经过30多年的研究发展,解决了超导腔的热崩溃、场致发射等诸多关键问题,目前加速梯度已经超过40 MV/m。高加速梯度的获得是射频超导领域的前沿热点,电抛光+低温热处理技术使射频超导腔的加速梯度提高3~4 MV/m。最新发展起来的超导腔的干式处理可以改善超导腔的表面状况,提高超导腔的Q值,抑制次级电子发射效应,有可能成为提高超导腔性能的又一有效手段。Abstract: RF superconducting cavities can work at CW mode or long pulse mode with high accelerating gradient. RF superconducting technology is widely used in particle accelerators. A lot of front scientific facilities are set up based on RF superconducting accelerators from low beta to high beta. RF superconductivity has become a most important technology in FEL and ERL. In the recent 30 years, the technology has made rapid progresses. The accelerating gradient can be over 40 MV/m by special treatments. High accelerating gradient is the front research in the field of RF superconductivity. EP + bake can provide an important method to increase the accelerating gradient. The accelerating gradient can increase by 3~4 MV/m after EP + bake treatment and the Q-drop is also improved. Recent developed dry tr
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Key words:
- rf superconductivity /
- free electron laser /
- superconducting accelerator /
- dry treatment
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