Measurements of (n,γ) neutron capture cross-sections with liquid scintillator detectors

A method for measuring (n,γ) neutron capture cross-sections using liquid scintillator detectors has been investigated. If the response function of the detector is known, and the efficiency as a function of energy is low and approximately constant, then gamma cascades can be counted via a method that...

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Published in:Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment Accelerators, spectrometers, detectors and associated equipment, 2003-10, Vol.511 (3), p.388-399
Main Authors: Wilson, J.N, Haas, B, Boyer, S, Dassie, D, Barreau, G, Aiche, M, Czajkowski, S, Grosjean, C, Guiral, A
Format: Article
Language:English
Subjects:
Liquid scintillators
Monte Carlo techniques
n,γ capture cross sections
Nuclear Experiment
Physics
Response functions
Weighting functions
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Summary:A method for measuring (n,γ) neutron capture cross-sections using liquid scintillator detectors has been investigated. If the response function of the detector is known, and the efficiency as a function of energy is low and approximately constant, then gamma cascades can be counted via a method that is independent of the cascade path provided the detector response is manipulated to allow detection efficiency to be proportional to emitted gamma-ray energy. In this paper, we demonstrate the measurement of efficiency and response functions for a C 6D 6 liquid scintillator using gamma-ray sources and (p,γ) reactions on light nuclei. Methods to reproduce the detector response and efficiency data successfully using simulations are presented and discussed. An entire response matrix for the detector has been constructed using a new interpolation technique, allowing weighting functions that force the detector efficiency to be proportional to gamma-ray energy to be calculated. An analysis of the sources of error involved in making (n,γ) cross-section measurements with this method has been undertaken using Monte-Carlo simulation techniques.
ISSN:0168-9002
1872-9576
DOI:10.1016/S0168-9002(03)01944-2