微波 SQUID 多路复用 TES 波长计读数中的串扰效应

IF 1.1 3区 物理与天体物理 Q4 PHYSICS, APPLIED Journal of Low Temperature Physics Pub Date : 2024-05-04 DOI:10.1007/s10909-024-03126-w
John C. Groh, Zeeshan Ahmed, Shawn W. Henderson, Johannes Hubmayr, John A. B. Mates, Maximiliano Silva-Feaver, Joel Ullom, Cyndia Yu
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引用次数: 0

摘要

过渡边沿传感器(TES)波长计广泛用于从远红外到毫米波的本底限制天体物理测量。许多计划中的未来仪器需要越来越大的探测器阵列,但其可扩展性受到低温读出电子设备的限制。微波 SQUID 多路复用技术通过使用固有的宽带电路提供了一种高扩展能力的解决方案,使每条微波线路可以读出数百到数千个通道。与任何多路复用技术一样,信道化机制会产生电串扰,必须对其加以理解和控制,以免降低仪器的灵敏度。在此,我们将探讨与 TES 波束仪阵列应用相关的影响,尤其是即将建成的毫米波观测站,如西蒙斯天文台和 AliCPT。我们模拟了各种潜在串扰机制的相对贡献,评估了固定音调和音调跟踪读出系统之间的差异,并讨论了串扰非线性将使天空测量复杂化的方式。
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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Crosstalk Effects in Microwave SQUID Multiplexed TES Bolometer Readout

Transition-edge sensor (TES) bolometers are broadly used for background-limited astrophysical measurements from the far-infrared to mm-waves. Many planned future instruments require increasingly large detector arrays, but their scalability is limited by their cryogenic readout electronics. Microwave SQUID multiplexing offers a highly capable scaling solution through the use of inherently broadband circuitry, enabling readout of hundreds to thousands of channels per microwave line. As with any multiplexing technique, the channelization mechanism gives rise to electrical crosstalk which must be understood and controlled so as to not degrade the instrument sensitivity. Here, we explore implications relevant for TES bolometer array applications, focusing in particular on upcoming mm-wave observatories such as the Simons Observatory and AliCPT. We model the relative contributions of the various underlying crosstalk mechanisms, evaluate the difference between fixed tone and tone-tracking readout systems, and discuss ways in which crosstalk nonlinearity will complicate on-sky measurements.

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来源期刊
Journal of Low Temperature Physics
Journal of Low Temperature Physics 物理-物理:凝聚态物理
CiteScore
3.30
自引率
25.00%
发文量
245
审稿时长
1 months
期刊介绍: The Journal of Low Temperature Physics publishes original papers and review articles on all areas of low temperature physics and cryogenics, including theoretical and experimental contributions. Subject areas include: Quantum solids, liquids and gases; Superfluidity; Superconductivity; Condensed matter physics; Experimental techniques; The Journal encourages the submission of Rapid Communications and Special Issues.
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