Improved Performance of High Areal Density Indirect Drive Implosions at the National Ignition Facility using a Four-Shock Adiabat Shaped Drive.

Authors :: Casey, D. T.
Milovich, J. L.
Smalyuk, V. A.
Clark, D. S.
Robey, H. F.
Pak, A.
MacPhee, A. G.
Baker, K. L.
Weber, C. R.
Ma, T.
Park, H.-S.
Döppner, T.
Callahan, D. A.
Haan, S. W.
Patel, P. K.
Peterson, J. L.
Hoover, D.
Nikroo, A.
Yeamans, C. B.
Merrill, F. E.
Source :: Physical Review Letters. 9/4/2015, Vol. 115 Issue 10, p1-5. 5p.
Publication Year :: 2015
Abstract: Hydrodynamic instabilities can cause capsule defects and other perturbations to grow and degrade implosion performance in ignition experiments at the National Ignition Facility (NIF). Here, we show the first experimental demonstration that a strong unsupported first shock in indirect drive implosions at the NIF reduces ablation front instability growth leading to a 3 to 10 times higher yield with fuel pR > 1 g/cm². This work shows the importance of ablation front instability growth during the National Ignition Campaign and may provide a path to improved performance at the high compression necessary for ignition. [ABSTRACT FROM AUTHOR]

Subjects :: *COMPUTATIONAL hydrodynamics software
*ABLATION (Aerothermodynamics)
*ADIABATIC compression
*ADIABATIC processes

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