Rayleigh{endash}Taylor instability evolution in ablatively driven cylindrical implosions

Hsing, W W; Barnes, C W; Beck, J B; Hoffman, N M; Galmiche, D; Richard, A; Edwards, J; Graham, P; Rothman, S; Thomas, B

doi:10.1063/1.872326

Title: Rayleigh{endash}Taylor instability evolution in ablatively driven cylindrical implosions

Journal Article · Thu May 01 00:00:00 EDT 1997 · Physics of Plasmas

DOI:https://doi.org/10.1063/1.872326· OSTI ID:560632

Hsing, W W; Barnes, C W; Beck, J B; Hoffman, N M ^[1]; Galmiche, D; Richard, A ^[2]; Edwards, J; Graham, P; Rothman, S; Thomas, B ^[3]

Los Alamos National Laboratories, Los Alamos, New Mexico 87545 (United States)
Commissariat a L`Energie Atomique, Limeil--Valenton (France)
Atomic Weapons Establishment, Aldermaston (England)

The Rayleigh{endash}Taylor instability is an important limitation in inertial confinement fusion capsule designs. Significant work both theoretically and experimentally has been done to demonstrate the stabilizing effects of material flow through the unstable region. The experimental verification has been done predominantly in planar geometry. Convergent geometry introduces effects not present in planar geometry such as shell thickening and accelerationless growth of modal amplitudes (e.g., Bell{endash}Plesset growth). Amplitude thresholds for the nonlinear regime are reduced, since the wavelength {lambda} of a mode m decreases with convergence {lambda}{approximately}R/m, where R is the radius. Convergent effects have been investigated using an imploding cylinder driven by x-ray ablation on the NOVA laser [J. L. Emmet, W. F. Krupke, and J. B. Trenholme, Sov. J. Quantum Electron. {bold 13}, 1 (1983)]. By doping sections of the cylinder with opaque materials, in conjunction with x-ray backlighting, the growth and feedthrough of the perturbations from the ablation front to the inner surface of the cylinder for various initial modes and amplitudes from early time through stagnation was measured. Mode coupling of illumination asymmetries with material perturbations is observed, as well as phase reversal of the perturbations from near the ablation front to the inner surface of the cylinder. Perturbation growth is observed due to convergence and compressibility alone, without the effects of acceleration, and scales as {approximately}1/{rho}R, where {rho} is the mass density. Imaging is performed with an x-ray pinhole camera coupled to a gated microchannel plate detector.

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Research Organization:: Los Alamos National Lab. (LANL), Los Alamos, NM (United States)

DOE Contract Number:: W-7405-ENG-36

OSTI ID:: 560632

Report Number(s):: CONF-961102-; ISSN 1070-664X; TRN: 98:000732

Journal Information:: Physics of Plasmas, Vol. 4, Issue 5; Conference: Meeting of the Division of Plasma Physics of the American Physical Society, Denver, CO (United States), 11-15 Nov 1996; Other Information: PBD: May 1997

Country of Publication:: United States

Language:: English

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Related Subjects

70 PLASMA PHYSICS AND FUSION
LASER IMPLOSIONS
RAYLEIGH-TAYLOR INSTABILITY
PLASMA INSTABILITY
PLASMA DIAGNOSTICS
LASER TARGETS
ABLATION
CYLINDRICAL CONFIGURATION
INSTABILITY GROWTH RATES
ASYMMETRY
X-RAY RADIOGRAPHY
INERTIAL CONFINEMENT
THERMONUCLEAR IGNITION
LASER-PRODUCED PLASMA

Title: Rayleigh{endash}Taylor instability evolution in ablatively driven cylindrical implosions

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