高中子通量的金刚石MEMS剂量计

2009 European Conference on Radiation and Its Effects on Components and Systems Pub Date : 2009-09-01 DOI:10.1109/RADECS.2009.5994555

J. Davidson, W. Kang, P. K. Basu, A. Holmes-Siedle, K. Galloway

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引用次数: 1

摘要

描述了一种双层悬臂梁型装置的结构和建模性能，该装置可作为非常高中子通量环境(如核聚变应用)的剂量计。一层材料，如钼，被制造成微电子尺度CVD金刚石悬臂梁的组成部分，这样，当它被照射时，由于辐射损伤，该层以可预测的方式膨胀，在双层梁中产生与影响成比例的应变变化状态。中子通量越大，应变越大，因而束的挠度越大。通过MEMS设计和构造，这种效应与可变位移气隙板电容器联系在一起，这样电容的变化就可以直接测量影响。

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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A MEMS dosimeter comprising diamond for very high neutron fluence

The construct and modeled performance of a bi-layer cantilever beam type device which can serve as a dosimeter for very high neutron fluence environments such as nuclear or fusion applications is described. A layer of material such as molybdenum is fabricated integral to a microelectronics scaled CVD diamond cantilever beam such that, as it is irradiated, the layer swells in a predictable manner due to radiation damage, creating a changing state of strain in the bi-layer beam proportional to the fluence. The more the neutron fluence, the larger is the strain and hence the greater the deflection of the beam. This effect is, by the MEMS design and construct, tied to a variable displacement air gap plate capacitor such that the change in capacitance provides a direct measure of fluence.

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2009 European Conference on Radiation and Its Effects on Components and Systems

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