Warhead verification as inverse problem: Applications of neutron spectrum unfolding from organic-scintillator measurements

Verification of future warhead-dismantlement treaties will require detection of certain warhead attributes without the disclosure of sensitive design information, and this presents an unusual measurement challenge. Neutron spectroscopy—commonly eschewed as an ill-posed inverse problem—may hold speci...

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Veröffentlicht in:	Journal of applied physics 2016-08, Vol.120 (6)
Hauptverfasser:	Lawrence, Chris C., Febbraro, Michael, Flaska, Marek, Pozzi, Sara A., Becchetti, F. D.
Format:	Artikel
Sprache:	eng
Schlagworte:	ACCELERATORS CHEMICAL EXPLOSIVES CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS HYDROGEN INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY NEUTRON SPECTRA NEUTRON SPECTROSCOPY NEUTRONS NONLINEAR PROBLEMS PLUTONIUM SPECTRA UNFOLDING TIME-OF-FLIGHT METHOD VERIFICATION
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container_issue	6
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container_title	Journal of applied physics
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creator	Lawrence, Chris C. Febbraro, Michael Flaska, Marek Pozzi, Sara A. Becchetti, F. D.
description	Verification of future warhead-dismantlement treaties will require detection of certain warhead attributes without the disclosure of sensitive design information, and this presents an unusual measurement challenge. Neutron spectroscopy—commonly eschewed as an ill-posed inverse problem—may hold special advantages for warhead verification by virtue of its insensitivity to certain neutron-source parameters like plutonium isotopics. In this article, we investigate the usefulness of unfolded neutron spectra obtained from organic-scintillator data for verifying a particular treaty-relevant warhead attribute: the presence of high-explosive and neutron-reflecting materials. Toward this end, several improvements on current unfolding capabilities are demonstrated: deuterated detectors are shown to have superior response-matrix condition to that of standard hydrogen-base scintintillators; a novel data-discretization scheme is proposed which removes important detector nonlinearities; and a technique is described for re-parameterizing the unfolding problem in order to constrain the parameter space of solutions sought, sidestepping the inverse problem altogether. These improvements are demonstrated with trial measurements and verified using accelerator-based time-of-flight calculation of reference spectra. Then, a demonstration is presented in which the elemental compositions of low-Z neutron-attenuating materials are estimated to within 10%. These techniques could have direct application in verifying the presence of high-explosive materials in a neutron-emitting test item, as well as other for treaty verification challenges.
doi_str_mv	10.1063/1.4960131
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Toward this end, several improvements on current unfolding capabilities are demonstrated: deuterated detectors are shown to have superior response-matrix condition to that of standard hydrogen-base scintintillators; a novel data-discretization scheme is proposed which removes important detector nonlinearities; and a technique is described for re-parameterizing the unfolding problem in order to constrain the parameter space of solutions sought, sidestepping the inverse problem altogether. These improvements are demonstrated with trial measurements and verified using accelerator-based time-of-flight calculation of reference spectra. Then, a demonstration is presented in which the elemental compositions of low-Z neutron-attenuating materials are estimated to within 10%. 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Toward this end, several improvements on current unfolding capabilities are demonstrated: deuterated detectors are shown to have superior response-matrix condition to that of standard hydrogen-base scintintillators; a novel data-discretization scheme is proposed which removes important detector nonlinearities; and a technique is described for re-parameterizing the unfolding problem in order to constrain the parameter space of solutions sought, sidestepping the inverse problem altogether. These improvements are demonstrated with trial measurements and verified using accelerator-based time-of-flight calculation of reference spectra. Then, a demonstration is presented in which the elemental compositions of low-Z neutron-attenuating materials are estimated to within 10%. 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Neutron spectroscopy—commonly eschewed as an ill-posed inverse problem—may hold special advantages for warhead verification by virtue of its insensitivity to certain neutron-source parameters like plutonium isotopics. In this article, we investigate the usefulness of unfolded neutron spectra obtained from organic-scintillator data for verifying a particular treaty-relevant warhead attribute: the presence of high-explosive and neutron-reflecting materials. Toward this end, several improvements on current unfolding capabilities are demonstrated: deuterated detectors are shown to have superior response-matrix condition to that of standard hydrogen-base scintintillators; a novel data-discretization scheme is proposed which removes important detector nonlinearities; and a technique is described for re-parameterizing the unfolding problem in order to constrain the parameter space of solutions sought, sidestepping the inverse problem altogether. 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subjects	ACCELERATORS CHEMICAL EXPLOSIVES CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS HYDROGEN INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY NEUTRON SPECTRA NEUTRON SPECTROSCOPY NEUTRONS NONLINEAR PROBLEMS PLUTONIUM SPECTRA UNFOLDING TIME-OF-FLIGHT METHOD VERIFICATION
title	Warhead verification as inverse problem: Applications of neutron spectrum unfolding from organic-scintillator measurements
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