In-flight observations of low-mode ρR asymmetries in NIF implosions
- Plasma Science and Fusion Center, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139 (United States)
- Lawrence Livermore National Laboratory, Livermore, California 94550 (United States)
Charged-particle spectroscopy is used to assess implosion symmetry in ignition-scale indirect-drive implosions for the first time. Surrogate D{sup 3}He gas-filled implosions at the National Ignition Facility produce energetic protons via D+{sup 3}He fusion that are used to measure the implosion areal density (ρR) at the shock-bang time. By using protons produced several hundred ps before the main compression bang, the implosion is diagnosed in-flight at a convergence ratio of 3–5 just prior to peak velocity. This isolates acceleration-phase asymmetry growth. For many surrogate implosions, proton spectrometers placed at the north pole and equator reveal significant asymmetries with amplitudes routinely ≳10%, which are interpreted as ℓ=2 Legendre modes. With significant expected growth by stagnation, it is likely that these asymmetries would degrade the final implosion performance. X-ray self-emission images at stagnation show asymmetries that are positively correlated with the observed in-flight asymmetries and comparable in magnitude, contradicting growth models; this suggests that the hot-spot shape does not reflect the stagnated shell shape or that significant residual kinetic energy exists at stagnation. More prolate implosions are observed when the laser drive is sustained (“no-coast”), implying a significant time-dependent asymmetry in peak drive.
- OSTI ID:
- 22410397
- Journal Information:
- Physics of Plasmas, Journal Name: Physics of Plasmas Journal Issue: 5 Vol. 22; ISSN PHPAEN; ISSN 1070-664X
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
ACCELERATION
ASYMMETRY
CHARGED PARTICLES
CONVERGENCE
DENSITY
DEUTERIUM
HEAVY ION FUSION REACTIONS
HELIUM 3
HOT SPOTS
IMAGES
IMPLOSIONS
KINETIC ENERGY
PLASMA DIAGNOSTICS
PROTON SPECTROMETERS
PROTONS
SPECTROSCOPY
STAGNATION
TIME DEPENDENCE
US NATIONAL IGNITION FACILITY
X RADIATION
ACCELERATION
ASYMMETRY
CHARGED PARTICLES
CONVERGENCE
DENSITY
DEUTERIUM
HEAVY ION FUSION REACTIONS
HELIUM 3
HOT SPOTS
IMAGES
IMPLOSIONS
KINETIC ENERGY
PLASMA DIAGNOSTICS
PROTON SPECTROMETERS
PROTONS
SPECTROSCOPY
STAGNATION
TIME DEPENDENCE
US NATIONAL IGNITION FACILITY
X RADIATION