Signal-to-Noise Ratio of a Thermoelectric Single-Photon Detector with Different Values of the Physical Parameters of the Sensor Material

IF 0.5 4区 物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY Journal of Contemporary Physics (Armenian Academy of Sciences) Pub Date : 2023-12-26 DOI:10.1134/S106833722303012X
A. A. Kuzanyan, V. R. Nikoghosyan, A. S. Kuzanyan, S. R. Harutyunyan
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Abstract

The processes of heat propagation in a three-layered detection pixel of a thermoelectric single-photon detector, consisting of an absorber (W), a thermoelectric sensor (La0.99Ce0.01B6), and a heat sink (W) were studied using computer simulation. The absorption of UV photons with an energy of 7.1–124 eV has been studied. The simulation was based on the heat propagation equation from a limited volume. The temporal dependencies of the signal generated on the sensor were examined, and its power was determined. The equivalent power of Johnson and thermal noise was calculated. The signal-to-noise ratio was determined using different values of heat capacity, thermal conductivity, and the Seebeck coefficient of the sensor material. It was shown that the signal-to-noise ratio can be significantly greater than one. The obtained results reveal the prospects of using thermoelectric single-photon detectors as components of photonic integrated circuit.

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传感器材料物理参数值不同时热电单光子探测器的信噪比
摘要 利用计算机模拟研究了热电单光子探测器三层探测像素(由吸收器(W)、热电传感器(La0.99Ce0.01B6)和散热器(W)组成)中的热传播过程。研究了能量为 7.1-124 eV 的紫外线光子的吸收情况。模拟基于有限体积的热传播方程。研究了传感器上产生的信号的时间依赖性,并确定了其功率。计算了约翰逊噪声和热噪声的等效功率。利用传感器材料的不同热容量、热导率和塞贝克系数值确定了信噪比。结果表明,信噪比可以明显大于 1。研究结果揭示了将热电单光子探测器用作光子集成电路元件的前景。
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来源期刊
CiteScore
1.00
自引率
66.70%
发文量
43
审稿时长
6-12 weeks
期刊介绍: Journal of Contemporary Physics (Armenian Academy of Sciences) is a journal that covers all fields of modern physics. It publishes significant contributions in such areas of theoretical and applied science as interaction of elementary particles at superhigh energies, elementary particle physics, charged particle interactions with matter, physics of semiconductors and semiconductor devices, physics of condensed matter, radiophysics and radioelectronics, optics and quantum electronics, quantum size effects, nanophysics, sensorics, and superconductivity.
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