Full characterization of optical Transition-Edge Sensor by impedance spectroscopy measurements in a bandwidth extending to 1 MHz

2013 IEEE 14th International Superconductive Electronics Conference (ISEC) Pub Date : 2013-07-07 DOI:10.1109/ISEC.2013.6604291

E. Taralli, L. Lolli, E. Monticone, M. Rajteri, L. Callegaro, T. Numata, D. Fukuda

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引用次数: 4

Abstract

Transition-Edge Sensors (TESs) are the most promising devices as single photon detectors in the visible and infrared range. In particular ultra-fast TESs with few hundred ns response time and high quantum efficiency find application in different fields like quantum optics, quantum metrology and quantum information. The full characterization of such detectors from thermal, electrical and optical point of view is not so simple, because only some parameters are directly measurable. There are several works where various models and set of measurements are proposed to describe X- and γ-ray TES, devices with response time in the order of 100 μs. In this work, we analyze ultra-fast TES (10 μm × 10 μm area and 34 nm thick) combining for the first time TES bias curves, measurements of complex impedance, and noise measurements. In particular we perform complex impedance measurements up to 1 MHz. All the obtained results are explained using the simplest calorimeter thermal model, that is suitable for TES without external absorber.

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在带宽延伸至1mhz的情况下，通过阻抗光谱测量全面表征光学过渡边缘传感器

过渡边缘传感器(TESs)是在可见光和红外范围内最有前途的单光子探测器。特别是具有几百ns响应时间和高量子效率的超快TESs在量子光学、量子计量和量子信息等领域有着广泛的应用。从热学、电学和光学的角度对这种探测器进行全面表征并不是那么简单，因为只有一些参数是可以直接测量的。有几部作品提出了各种模型和测量集来描述响应时间在100 μs量级的X射线和γ射线TES。在这项工作中，我们首次结合TES偏置曲线、复杂阻抗测量和噪声测量，分析了超高速TES (10 μm × 10 μm面积和34 nm厚)。特别是，我们执行高达1 MHz的复杂阻抗测量。所有得到的结果都用最简单的量热计热模型来解释，该模型适用于没有外部吸收器的TES。

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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2013 IEEE 14th International Superconductive Electronics Conference (ISEC)

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