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

Neutrons generated in Inertial Confinement Fusion (ICF) experiments provide valuable information to interpret the conditions reached in the plasma. The neutron time-of-flight (nToF) technique is well suited for measuring the neutron energy spectrum due to the short time (100 ps) over which neutrons are typically emitted in ICF experiments. By locating detectors 10s of meters from the source, the neutron energy spectrum can be measured to high precision. We present a contextual review of the current state of the art in nToF detectors at ICF facilities in the United States, outlining the physics that can be measured, the detector technologies currently deployed and analysis techniques used.

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Neutron time of flight (nToF) detectors for inertial fusion experiments

Moore

Schlossberg

Appelbe

et al. 2023

Review of Scientific Instruments

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Simultaneous analysis of collinear neutron time-of-flight (nToF) traces applied to pulsed fusion experiment

Mitrani,

Ampleford,

Chandler

et al. 2024

Review of Scientific Instruments

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On pulsed fusion experiments, the neutron time of flight (nToF) diagnostic provides critical information on the fusion neutron energy spectrum. This work presents an analysis technique that uses two collinear nToF detectors, potentially to measure nuclear bang time and directional flow velocities. Two collinear detectors may be sufficient to disambiguate the contributions of nuclear bang time and directional flow velocities to the first moment of the neutron energy spectrum, providing an independent measurement of nuclear bang time. Preliminary results from measured nToF traces on the National Ignition Facility and additional applications of this technique are presented.

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

Cited by 2 publications

References 20 publications

Neutron time of flight (nToF) detectors for inertial fusion experiments

Neutron time of flight (nToF) detectors for inertial fusion experiments

Simultaneous analysis of collinear neutron time-of-flight (nToF) traces applied to pulsed fusion experiment

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