Further improvement of medium temperature heat treated SRF cavities for high gradients

L. Steder, C. Bate, K. Kasprzak, D. Reschke, L. Trelle, H. Weise, M. Wiencek
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Abstract

The application of heat treatments on 1.3 GHz TESLA type cavities in ultra-high vacuum at 250{\deg}C to 350{\deg}C is called medium temperature or mid-T heat treatment. In various laboratories such treatments on superconducting radio frequency (SRF) cavities result reproducible in three main characteristic features for the quality factor $Q_0$ in dependency of the accelerating electric field strength $E_{acc}$. First, comparing mid-T heat treatment with a baseline treatment, a significant increase of $Q_0$ up to $5\cdot10^{10}$ at 2K can be observed. Second, with increasing accelerating gradient $E_{acc}$ the $Q_0$ increases up to a maximum around 16 to 20 MV/m. This effect is known as anti-Q-slope. The third observation for a mid-T heat treatment compared to a baseline treatment is an often reduced maximum gradient $E_{acc}$. The appearance of a high-field-Q-slope (HFQS) was reported after mid-T heat treatments of 3 hours at 350{\deg}C or of 20 hours at 300{\deg}C at DESY. Using the heating temperature and the heating time taken from the temperature profile of the furnace effective oxygen diffusion lengths $l$ were calculated. In the follow-up study presented here, a set of three single-cell cavities with diffusion lengths $l$ above 1700 nm, showing HFQS, were treated with an additional so-called low-T bake of 24-48 hours at 120{\deg}C to 130{\deg}C. The subsequent reproducible Q(E) -performances results indicate that the low-T bake procedure cures the HFQS like for cavities treated with the EuXFEL recipe of EP and following low-T treatments. As presented in the following, Q values of more than $3\cdot10^{10}$ at 16 MV/m and accelerating gradients of 32 to 40 MV/m are achieved.
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进一步改进用于高梯度的中温热处理 SRF 型腔
在250{/deg}C到350{/deg}C的超高真空环境下对1.3 GHz TESLA型空腔进行热处理被称为中温或中T热处理。在不同的实验室中,对超导射频(SRF)空腔进行这种处理的结果是,品质因数 Q_0$ 的三个主要特征与加速电场强度 E_{acc}$ 的关系是可重复的。首先,将中T热处理与基线处理相比较,可以观察到Q_0$在2K时显著增加,最高可达$5\cdot10^{10}$。其次,随着加速梯度 $E_{acc}$ 的增加,Q_0$ 也会增加,最大值约为 16 至 20 MV/m。与基线处理相比,中 T 波处理的第三个观察结果是最大梯度 E_{acc}$ 通常会减小。据报道,在DESY,在350{/deg}C下进行3小时或在300{/deg}C下进行20小时的中T加热处理后,会出现高场Q斜率(HFQS)。利用加热炉的温度曲线计算出的加热温度和加热时间,计算出了有效氧扩散长度 $l$。在本文介绍的后续研究中,对一组扩散长度超过1700纳米的三个单细胞空穴进行了额外的所谓低温烘烤,在120{\deg}C到130{\deg}C的温度下烘烤24-48小时,结果显示出HFQS。随后的可重现 Q(E) - 性能结果表明,低温烘烤处理与使用 EP 的 EuXFEL 配方和低温处理后的空穴一样,可以固化 HFQS。如下文所述,在 16 MV/m 和 32 至 40 MV/m 的加速梯度条件下,Q 值超过了 $3\cdot10^{10}$ 。
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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