Alexander Clark scite author profile

Alexander Clark

12Publications

10Citation Statements Received

92Citation Statements Given

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121

Affiliations

Los Alamos National Laboratory, North Carolina State University

Publications

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Application of Neutron Multiplicity Counting Experiments to Optimal Cross-Section Adjustments

Clark

Mattingly

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2020

Nuclear Science and Engineering

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CLARK, ALEXANDER RICH. Application of Neutron Multiplicity Counting Experiments to Optimal Cross Section Adjustments. (Under the direction of John Mattingly.) This dissertation presents the first application of model calibration to neutron multiplicity counting (NMC) experiments for cross section optimization that utilizes adjoint-based sensitivity analysis (SA) and first-order uncertainty quantification (UQ). We summarize previous work on SA applied to NMC and describe notable additions. We give the procedure for first-order UQ and Bayesian-inference-based parameter estimation (PE). We then discuss model calibration applied to NMC of a 4.5-kg sphere of weapons-grade, alpha-phase plutonium metal with a neutron multiplicity counter. For bare and polyethylene-reflected configurations of the plutonium sphere, we discuss the sensitivity of the first-and second-moment detector responses (i.e. first and second moments of the NMC distribution, respectively) to the cross sections. We describe the sources of uncertainty in the measured and simulated responses. Specifically, uncertainty in the measured responses is due to both random and systematic sources of uncertainty. Uncertainty in the simulated responses is due to cross section covariances. We describe in detail the adjustment to the cross sections and cross section covariances due to the optimization. Due to the contribution of systematic uncertainties to the measured response uncertainties, the adjustment to the cross sections is similar in trend but larger in magnitude compared to that recommended by previous work. We compare the measured responses to responses simulated with nominal and optimized cross sections, demonstrating that the best-estimate cross sections produce simulations of NMC experiments that are more accurate with reduced uncertainty. We verify that the response variance due to the cross sections computed with sampling-based uncertainty quantification (UQ) is well-approximated by that estimated with first-order UQ.

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Informing nuclear physics via machine learning methods with differential and integral experiments

et al. 2021

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Sensitivity Analysis and Uncertainty Quantification of the Feynman Y and Sm2

Clark

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2018

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MCNP® Code Version 6.3.0 Theory & User Manual

Kulesza

Adams

Armstrong

et al. 2022

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Which nuclear data can be validated with LLNL pulsed-sphere experiments?

Neudecker

Cabellos

Clark

et al. 2021

Annals of Nuclear Energy

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Sensitivity Analysis and Uncertainty Quantification Applied to the Feynman Y and Sm2

Clark

2018

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Impact of nuclear data validation with uncertainty quantification and diverse benchmarks on criticality safety [Slides]

Clark

2021

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EUCLID Sensitivity Database

Alwin

Clark

Cutler

et al. 2022

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Alexander Clark

Application of Neutron Multiplicity Counting Experiments to Optimal Cross-Section Adjustments

Informing nuclear physics via machine learning methods with differential and integral experiments

Sensitivity Analysis and Uncertainty Quantification of the Feynman Y and Sm<sub>2</sub>

MCNP<sup>®</sup> Code Version 6.3.0 Theory & User Manual

Which nuclear data can be validated with LLNL pulsed-sphere experiments?

Sensitivity Analysis and Uncertainty Quantification Applied to the Feynman Y and Sm<sub>2</sub>

Impact of nuclear data validation with uncertainty quantification and diverse benchmarks on criticality safety [Slides]

EUCLID Sensitivity Database

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