J. Carrera scite author profile

Fusion reaction history and ablator areal density measurements for Inertial Confinement Fusion experiments at the National Ignition Facility are currently conducted using the Gamma Reaction History diagnostic (GRH_6m). Future Gas Cherenkov Detectors (GCDs) will ultimately provide ∼100x more sensitivity, reduce the effective temporal response from ∼100 to ∼10 ps, and lower the energy threshold from 2.9 to 1.8 MeV, relative to GRH_6m. The first phase toward next generation GCDs consisted of inserting the existing coaxial GCD-3 detector into a reentrant well which puts it within 4 m of the implosion. Reaction history and ablator gamma measurement results from this Phase I are discussed here. These results demonstrate viability for the follow-on Phases of (II) the use of a revolutionary new pulse-dilation photomultiplier tube to improve the effective measurement bandwidth by >10x relative to current PMT technology; and (III) the design of a NIF-specific “Super” GCD which will be informed by the assessment of the radiation background environment within the well described here.

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Implementation of an enhanced, permanently installed neutron activation diagnostic hardware for NIF

Jedlovec

Edwards

Carrera

et al. 2015

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Commissioning the new pulse dilation Gas Cherenkov Detector at the National Ignition Facility

Geppert-Kleinrath

Kim

Meaney

et al. 2020

High Energy Density Physics

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J. Carrera

Lawson Criterion for Ignition Exceeded in an Inertial Fusion Experiment

Development of Enhanced, Permanently-Installed, Neutron Activation Diagnostic Hardware for NIF

Progress on next generation gamma-ray Cherenkov detectors for the National Ignition Facility

Implementation of an enhanced, permanently installed neutron activation diagnostic hardware for NIF

Commissioning the new pulse dilation Gas Cherenkov Detector at the National Ignition Facility

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