Simulations of Noise in Phase-Separated Transition-Edge Sensors for   SuperCDMS

A.J. Anderson; S.W. Leman; M. Pyle; E. Figueroa-Feliciano; K.; McCarthy; T. Doughty; M. Cherry; B. Young; and (for the SuperCDMS; Collaboration)

arXiv:1109.1327·physics.ins-det·August 14, 2019

Simulations of Noise in Phase-Separated Transition-Edge Sensors for SuperCDMS

A.J. Anderson, S.W. Leman, M. Pyle, E. Figueroa-Feliciano, K., McCarthy, T. Doughty, M. Cherry, B. Young, and (for the SuperCDMS, Collaboration)

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TL;DR

This paper models noise in phase-separated transition-edge sensors for SuperCDMS, aiding in optimizing detector design by comparing phase-separated and uniform states.

Contribution

It introduces a simple model for noise in phase-separated TES, providing insights for optimizing SuperCDMS detector parameters.

Findings

01

Noise characteristics differ between phase-separated and uniform TES.

02

Simulations inform optimal critical temperature and TES length.

03

Model helps improve detector sensitivity and performance.

Abstract

We briefly review a simple model of superconducting-normal phase-separation in transition-edge sensors in the SuperCDMS experiment. After discussing some design considerations relevant to the TES in the detectors, we study noise sources in both the phase-separated and phase-uniform cases. Such simulations are valuable for optimizing the critical temperature and TES length of future SuperCDMS detectors.

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