Mitigation strategies for time-resolved x-ray diagnostic data degradation due to high neutron yield of ICF experiments at the NIF

C Trosseille; M Beach; P Bell; A C Carpenter; S Clements; N Durst; B T Funsten; A M Garafalo; T Goyal; D Hargrove; T J Hilsabeck; J P Holder; N Izumi; H Khater; N Nguyen; P Nyholm; K W Piston; J Prince; R Ramirez; A Sharp; J Tabimina; S R Nagel

doi:10.1063/5.0216498

Mitigation strategies for time-resolved x-ray diagnostic data degradation due to high neutron yield of ICF experiments at the NIF

Rev Sci Instrum. 2024 Jul 1;95(7):073514. doi: 10.1063/5.0216498.

Authors

C Trosseille¹, M Beach¹, P Bell¹, A C Carpenter¹, S Clements¹, N Durst¹, B T Funsten¹, A M Garafalo¹, T Goyal¹, D Hargrove¹, T J Hilsabeck¹, J P Holder¹, N Izumi¹, H Khater¹, N Nguyen¹, P Nyholm¹, K W Piston¹, J Prince¹, R Ramirez¹, A Sharp¹, J Tabimina¹, S R Nagel¹

Affiliation

¹ Lawrence Livermore National Laboratory, Livermore, California 94550, USA.

PMID: 39012179
DOI: 10.1063/5.0216498

Abstract

Inertial confinement fusion experiments taking place at the National Ignition Facility are generating ever increasing amounts of fusion energy, with the deuterium tritium fusion neutron yield growing a hundredfold over the past ten years. Strategies must be developed to mitigate this harsh environment's deleterious effects on the operation and the performance of the time-resolved x-ray imagers deployed in the National Ignition Facility target bay to record the dynamics of the implosions. We review the evolution of these imagers in recent years and detail some of the past and present efforts undertaken to maintain or improve the quality of the experimental data collected on high neutron yield experiments. These include the use of a dump-and-read electronic backend, the selection of photographic film with a low background sensitivity, and the optical filtering of Cherenkov radiation.