High-yield magnetic recoil neutron spectrometer on the National Ignition Facility for operation up to 60 MJ.

M Gatu Johnson,Justin Kunimune ,A J Mackinnon,J A Frenje,Timothy M Johnson ,A S Moore ,C Trosseille ,J D Kilkenny

doi:10.1063/5.0099317

High-yield magnetic recoil neutron spectrometer on the National Ignition Facility for operation up to 60 MJ.

M Gatu Johnson, Justin Kunimune + Show 6 more

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https://doi.org/10.1063/5.0099317

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Journal: Review of Scientific Instruments	Publication Date: Aug 1, 2022
Citations: 3

Affiliation: Moscow Institute of Thermal Technology, Lawrence Livermore National Laboratory

#Magnetic Recoil Neutron Spectrometer #National Ignition Facility #Data Processing Techniques #Magnetic Neutron #Magnetic Spectrometer #Ion Temperature Ratio #Ion Temperature #Recent Progress #Yield Ratio #Data Conversion

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Recent progress at the National Ignition Facility (NIF), with neutron yields of order 1 × 1017, places new constraints on diagnostics used to characterize implosion performance. The Magnetic Recoil neutron Spectrometer (MRS), which is routinely used to measure yield, ion temperature (Tion), and down-scatter ratio (dsr), has been adapted to allow measurements of dsr up to 5 × 1017, and yield and Tion up to 2 × 1018 in the near term with new data processing techniques and conversion foil solutions. This paper presents a solution for extending MRS operation up to a yield of 2 × 1019 (60 MJ) by moving the spectrometer outside of the NIF shield wall. This will not only enhance the upper yield limit by 10× but also improve signal-to-background by 5×.

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High-yield magnetic recoil neutron spectrometer on the National Ignition Facility for operation up to 60 MJ.