A neutron spectrometer based on temperature variations in superheated drop compositions

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• 作者：Apfel ; Robert E. ; d’ ; Errico ; Francesco
• 关键词：07.57.K ; 85.25.P ; 29.30.H ; Radiation detectors ; Neutron spectroscopy
• 刊名：Nuclear Instruments and Methods in Physics Research Section A ; Accelerators ; Spectrometers ; Detectors and Associated Equipment
• 出版年：2002
• 期刊代码：41_01689002
• 类别：ph
• 出版时间：January 1, 2002
• 卷：476
• 期：1-2
• 页码：298-303
• 文件大小：137 K

摘要

The response of superheated drop detectors (SDDs) to neutron radiation varies in a self-consistent manner with variations in temperature and pressure, making such compositions suitable for neutron spectrometry. The advantage of this approach is that the response functions of candidate materials versus energy as the temperature or pressure is varied are nested and have distinct thresholds, with no thermal neutron response. These characteristics permit unfolding without the uncertainties associated with other spectrometry techniques, where multiple solutions are possible, thus requiring an initial guess of the spectrum. A spectrometer was developed based on the well-established technology for acoustic sensing of bubble events interfaced with a proportional-integral-derivative temperature controller. The active monitor for neutrons, called REMbrandt™, was used as the platform for controlling temperature on a SDD probe and for data acquisition, thereby automating the process of measuring the neutron energy spectrum. The new instrument, called REM-SPEC™, implements and automates the original BINS approach: it adjusts the temperature of the SDD vial in increasing steps and measures the bubble event rate at each step. By using two distinct SDD materials with overlapping responses, the 0.1–20MeV range of energies relevant to practical spectrometry is readily covered. Initial experiments with an Am–Be source validate the operational protocols of this device.