A spatially resolving detector for heat-pulse experiments

Journal of Physics E: Scientific Instruments Pub Date : 1989-10-01 DOI:10.1088/0022-3735/22/10/004
D. Hurley, G. Hardy, P. Hawker, A. Kent
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引用次数: 9

Abstract

A new technique for spatially resolved detection of heat pulses (phonons) at liquid-helium temperatures is described. Unlike existing phonon imaging methods, this system is not affected by the presence of magnetic fields up to at least 7 T. The method utilises a spatially extended cadmium sulphide thin film as a phonon bolometer. Small (<200 mu m) regions of the film are selectively sensitised by a microcomputer-controlled, scanned laser spot and 'reset' after data acquisition using a large ( approximately=50 mA) current pulse. Using data acquisition and analysis software, line scans of the transmitted phonon intensity as a function of propagation direction are obtained. Sample data of the phonon intensity in the (110) plane of silicon are presented.
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用于热脉冲实验的空间分辨探测器
介绍了一种在液氦温度下空间分辨探测热脉冲(声子)的新技术。与现有的声子成像方法不同,该系统不受高达至少7 t的磁场存在的影响。该方法利用空间扩展的硫化镉薄膜作为声子热计。薄膜的小区域(<200 μ m)通过微型计算机控制的扫描激光光斑选择性敏化,并在使用大(约=50 mA)电流脉冲采集数据后“复位”。利用数据采集和分析软件,得到了传输声子强度随传播方向的线扫描图。给出了硅(110)平面声子强度的样本数据。
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Journal of Physics E: Scientific Instruments
Journal of Physics E: Scientific Instruments
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