Radiation associated with an inertial confinement fusion laser system

Details Radiation associated with an inertial confinement fusion laser system Radiation associated with an inertial confinement fusion laser system

Dec 1986

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1986shp..symp.....s&link_type=abstract

Presented at the Midyear Topical Symposium of the Health Physics Society: Health Physics of Radiation-producing Machines, Reno,

Physics

Inertial Confinement Fusion, Laser Fusion, Lasers, Radiant Flux Density, Radiation Hazards, Fission Products, Gamma Rays, Laser Damage, Laser Outputs, Neutron Irradiation, Nitrogen Isotopes, Nova Laser System, Tritium

Scientific paper

The primary objective of the LLNL Laser Fusion Program is to understand and develop the science and technology of inertial confinement fusion. Nova, a 100-TW/100-kJ laser system, has demonstrated efficient compression, ignition, and burn of D-T fusion fuel. The LLNL fusion computer program (LASNEX) and experiments strongly support achieving high gain with the proposed multi-MJ laser system. In this paper, I examine the prompt and residual radiations associated with these laser systems.

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