Optimizing moderator dimensions for neutron scattering at the spallation neutron source

In this work, we investigate the effect of neutron moderator dimensions on the performance of neutron scattering instruments at the Spallation Neutron Source (SNS). In a recent study of the planned second target station at the SNS facility, we have found that the dimensions of a moderator play a sig...

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Veröffentlicht in:	Review of scientific instruments 2013-12, Vol.84 (12)
Hauptverfasser:	Zhao, J. K., Robertson, J. L., Herwig, Kenneth W., Gallmeier, Franz X., Riemer, Bernard W.
Format:	Artikel
Sprache:	eng
Schlagworte:	BEAMS BRIGHTNESS DESIGN DISTANCE INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY MODERATORS MONTE CARLO METHOD NEUTRON DIFFRACTION NEUTRON GUIDES NEUTRON SOURCES NEUTRONS OPTICAL SYSTEMS OPTIMIZATION SPALLATION SURFACES TIN SULFIDES
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creator	Zhao, J. K. Robertson, J. L. Herwig, Kenneth W. Gallmeier, Franz X. Riemer, Bernard W.
description	In this work, we investigate the effect of neutron moderator dimensions on the performance of neutron scattering instruments at the Spallation Neutron Source (SNS). In a recent study of the planned second target station at the SNS facility, we have found that the dimensions of a moderator play a significant role in determining its surface brightness. A smaller moderator may be significantly brighter over a smaller viewing area. One of the immediate implications of this finding is that for modern neutron scattering instrument designs, moderator dimensions and brightness have to be incorporated as an integrated optimization parameter. Here, we establish a strategy of matching neutron scattering instruments with moderators using analytical and Monte Carlo techniques. In order to simplify our treatment, we group the instruments into two broad categories: those with natural collimation and those that use neutron guide systems. For instruments using natural collimation, the optimal moderator selection depends on the size of the moderator, the sample, and the moderator brightness. The desired beam divergence only plays a role in determining the distance between sample and moderator. For instruments using neutron optical systems, the smallest moderator available that is larger than the entrance dimension of the closest optical element will perform the best (assuming, as is the case here that smaller moderators are brighter)
doi_str_mv	10.1063/1.4841875
format	Article
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L. ; Herwig, Kenneth W. ; Gallmeier, Franz X. ; Riemer, Bernard W.</creator><creatorcontrib>Zhao, J. K. ; Robertson, J. L. ; Herwig, Kenneth W. ; Gallmeier, Franz X. ; Riemer, Bernard W.</creatorcontrib><description>In this work, we investigate the effect of neutron moderator dimensions on the performance of neutron scattering instruments at the Spallation Neutron Source (SNS). In a recent study of the planned second target station at the SNS facility, we have found that the dimensions of a moderator play a significant role in determining its surface brightness. A smaller moderator may be significantly brighter over a smaller viewing area. One of the immediate implications of this finding is that for modern neutron scattering instrument designs, moderator dimensions and brightness have to be incorporated as an integrated optimization parameter. Here, we establish a strategy of matching neutron scattering instruments with moderators using analytical and Monte Carlo techniques. In order to simplify our treatment, we group the instruments into two broad categories: those with natural collimation and those that use neutron guide systems. For instruments using natural collimation, the optimal moderator selection depends on the size of the moderator, the sample, and the moderator brightness. The desired beam divergence only plays a role in determining the distance between sample and moderator. 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One of the immediate implications of this finding is that for modern neutron scattering instrument designs, moderator dimensions and brightness have to be incorporated as an integrated optimization parameter. Here, we establish a strategy of matching neutron scattering instruments with moderators using analytical and Monte Carlo techniques. In order to simplify our treatment, we group the instruments into two broad categories: those with natural collimation and those that use neutron guide systems. For instruments using natural collimation, the optimal moderator selection depends on the size of the moderator, the sample, and the moderator brightness. The desired beam divergence only plays a role in determining the distance between sample and moderator. 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subjects	BEAMS BRIGHTNESS DESIGN DISTANCE INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY MODERATORS MONTE CARLO METHOD NEUTRON DIFFRACTION NEUTRON GUIDES NEUTRON SOURCES NEUTRONS OPTICAL SYSTEMS OPTIMIZATION SPALLATION SURFACES TIN SULFIDES
title	Optimizing moderator dimensions for neutron scattering at the spallation neutron source
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