1998
DOI: 10.1063/1.872865
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The development and advantages of beryllium capsules for the National Ignition Facility

Abstract: Capsules with beryllium ablators have long been considered as alternatives to plastic for the National Ignition Facility laser ; now the superior performance of beryllium is becoming well substantiated . Beryllium capsules have the advantages of relative insensitivity to instability growth, low opacity, high tensile strength, and high thermal Zimmerman and W. L. h e r , Comments Plasmas Phys. Controlled Thermonucl. Fusion, 2 , 5 1 (2975)l results that particular beryllium capsule designs are several times less… Show more

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Cited by 143 publications
(56 citation statements)
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“…This design can tolerate roughner D-T surfaces, compared to plastic ablators which require less than 1 µm RMS D-T surfaces to ignite. [1,2] Characterization of the solid D-T surface roughness is requried to compare ignition experiments with simulations. However, only limited characterization of the solid D-T fuel layer inside of the Be(Cu) shell has been possible.…”
Section: Introductionmentioning
confidence: 99%
“…This design can tolerate roughner D-T surfaces, compared to plastic ablators which require less than 1 µm RMS D-T surfaces to ignite. [1,2] Characterization of the solid D-T surface roughness is requried to compare ignition experiments with simulations. However, only limited characterization of the solid D-T fuel layer inside of the Be(Cu) shell has been possible.…”
Section: Introductionmentioning
confidence: 99%
“…In an effort to improve capsule performance, beryllium doped with copper was proposed as an ablator and shown, in simulations, to be markedly more stable hydrodynamically than plastic [5,6]. Nearly concurrently, graded doped designs were introduced for both copperdoped beryllium [7] and later germanium-doped plastic.…”
Section: Introductionmentioning
confidence: 99%
“…At that time it was believed that fabrication and fielding would be easiest with uniformly doped CH(Br). Targets were subsequently proposed with ablators of uniformly Cu doped Be [5], and of undoped polyimide [6]. Be is doped with Cu since it is known that Cu dissolves atomically in solid Be at the relevant concentrations of ~1%; the choice of dopant material is not tightly constrained by the implosion physics, provided that the dopant increases the opacity to hard x-rays while minimally increasing the opacity for the bulk of the x-rays in the drive.…”
Section: Introductionmentioning
confidence: 99%