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Hohlraum Reheating from Burning NIF Implosions

M. S. Rubery, M. D. Rosen, N. Aybar, O. L. Landen, L. Divol, C. V. Young, C. R. Weber, J. H. Hammer, J. D. Moody, A. S. Moore, A. L. Kritcher, A. B. Zylstra, O. A. Hurricane, A. Pak, S. A. MacLaren, G. B. Zimmerman, J. Harte, D. T. Woods

2024Physical Review Letters59 citationsDOIOpen Access PDF

Abstract

As fusion experiments at the National Ignition Facility (NIF) approach and exceed breakeven, energy from the burning capsule is predicted to couple to the gold walls and reheat the hohlraum. On December 5, 2022, experiment N221204 exceeded target breakeven, historically achieving 3.15 MJ of fusion energy from 2.05 MJ of laser drive; for the first time, energy from the igniting capsule reheated the hohlraum beyond the peak laser-driven radiation temperature of 313 eV to a peak of 350 eV, in less than half a nanosecond. This reheating effect has now been unambiguously observed by the two independent Dante calorimeter systems across multiple experiments, and is shown to result from reheating of the remnant tungsten-doped ablator by the exploding core, which is heated by alpha deposition.

Topics & Concepts

HohlraumNuclear engineeringNational Ignition FacilityInertial confinement fusionMaterials scienceNuclear physicsPhysicsPlasmaEngineeringLaser-Plasma Interactions and DiagnosticsCombustion and Detonation ProcessesEnergetic Materials and Combustion
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