多普勒加宽中子吸收共振数据的神经网络分析

SMCia/01. Proceedings of the 2001 IEEE Mountain Workshop on Soft Computing in Industrial Applications (Cat. No.01EX504) Pub Date : 2001-06-25 DOI:10.1109/SMCIA.2001.936732

J.R. Thomas, M. Embrechts, R.M. Stringfield, R. M. Wheat

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引用次数: 4

摘要

中子吸收共振的热诱导多普勒增宽可以作为混合物中单个同位素温度的独特特征。这一原理可用于无法使用常规测量技术的情况下的温度测量，例如在恶劣环境中测量系统单个部件的温度，或通过化学、电磁或核过程选择性加热的部件的温度。对加宽吸收数据的解释通常是通过与吸收过程的核物理模型进行比较来完成的。本文研究了用训练好的神经网络模型解释数据的可行性。

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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Neural network analysis of Doppler-broadened neutron absorption resonance data

Thermally-induced Doppler broadening of neutron absorption resonances can be used as a unique signature of the temperature of individual isotopes in a mixture. This principle can be exploited for temperature measurements in situations where conventional measurement techniques are not available, such as measurement of temperatures of individual parts of a system in a severe environment, or of components selectively heated by chemical, electromagnetic, or nuclear processes. Interpretation of the broadened absorption data is normally done by comparison to a nuclear physics model of the absorption process. This paper reports a study of the feasibility of interpreting the data with a trained neural network model.

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SMCia/01. Proceedings of the 2001 IEEE Mountain Workshop on Soft Computing in Industrial Applications (Cat. No.01EX504)

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