Exploration of Parameters that Affect High Field Q-Slope

Exploration of Parameters that Affect High Field Q-Slope Pub Date : 2023-06-22 DOI:10.2172/1988480

K. Howard, Y.-K. Kim, D. Bafia, A. G. U. O. Chicago, F. N. Laboratory

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Abstract

The onset of high field Q-slope (HFQS) around 25 MV/m prevents cavities in electropolished (EP) condition from reaching high quality factors at high gradients due to the precipitation of niobium hydrides during cooldown. These hydrides are non-superconducting at 2 K, and contribute to losses such as Q disease and HFQS. We are interested in exploring the parameters that affect the behavior of HFQS. We study a high RRR cavity that received an 800 C by 3 hour bake and EP treatment to observe HFQS. First, we explore the effect of trapped magnetic flux. The cavity is tested after cooling slowly through Tc while applying various levels of ambient field. We observe the onset of the HFQS and correlate this behavior with the amount of trapped flux. Next, we investigate the effect of the size/concentration of hydrides. The cavity is tested after holding the temperature at 100 K for 12 hours during the cooldown to promote the growth of hydrides. We can correlate the behavior of the HF QS with the increased hydride concentration. Our results will help further the understanding of the mechanism of HFQS.

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影响高场q斜率的参数探讨

高场q斜率(HFQS)在25 MV/m左右开始，这使得电抛光(EP)条件下的空腔在冷却过程中由于铌氢化物的沉淀而无法在高梯度下达到高质量因子。这些氢化物在2k时是非超导的，并导致Q病和HFQS等损失。我们感兴趣的是探索影响HFQS行为的参数。我们研究了一个高RRR的腔体，在800℃下经过3小时的烘烤和EP处理来观察HFQS。首先，我们探讨了捕获磁通的影响。在施加不同水平的环境电场时，通过Tc缓慢冷却后对腔体进行测试。我们观察到HFQS的开始，并将这种行为与捕获通量的数量联系起来。接下来，我们研究了氢化物的大小/浓度的影响。在冷却过程中，保持温度在100k下12小时，以促进氢化物的生长，然后对空腔进行测试。我们可以将HF QS的行为与氢化物浓度的增加联系起来。本研究结果将有助于进一步了解HFQS的发病机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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