Design of a multi-detector, single line-of-sight, time-of-flight system to measure time-resolved neutron energy spectra

Author:

Schlossberg D. J.1ORCID,Moore A. S.1ORCID,Kallman J. S.1,Lowry M.1,Eckart M. J.1,Hartouni E. P.1ORCID,Hilsabeck T. J.1,Kerr S. M.1ORCID,Kilkenny J. D.2ORCID

Affiliation:

1. Lawrence Livermore National Laboratory, Livermore, California 94551-0808, USA

2. General Atomics, San Diego, California 92121, USA

Abstract

In the dynamic environment of burning, thermonuclear deuterium–tritium plasmas, diagnosing the time-resolved neutron energy spectrum is of critical importance. Strategies exist for this diagnosis in magnetic confinement fusion plasmas, which presently have a lifetime of ∼1012 longer than inertial confinement fusion (ICF) plasmas. Here, we present a novel concept for a simple, precise, and scale-able diagnostic to measure time-resolved neutron spectra in ICF plasmas. The concept leverages general tomographic reconstruction techniques adapted to time-of-flight parameter space, and then employs an updated Monte Carlo algorithm and National Ignition Facility-relevant constraints to reconstruct the time-evolving neutron energy spectrum. Reconstructed spectra of the primary 14.028 MeV nDT peak are in good agreement with the exact synthetic spectra. The technique is also used to reconstruct the time-evolving downscattered spectrum, although the present implementation shows significantly more error.

Funder

U.S. Department of Energy

Publisher

AIP Publishing

Subject

Instrumentation

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