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W2033992801 endingPage "014021" @default.
W2033992801 startingPage "014021" @default.
W2033992801 abstract "In inertial confinement fusion (ICF) and high-energy density physics (HEDP), the most important manifestations of the hydrodynamic instabilities and other mixing processes involve lateral motion of the accelerated plasmas. In order to understand the experimental observations and to advance the numerical simulation codes to the point of predictive capability, it is critically important to accurately diagnose the motion of the dense plasma mass. The most advanced diagnostic technique recently developed for this purpose is the monochromatic x-ray imaging that combines large field of view with high contrast, high spatial resolution and large throughput, ensuring high temporal resolution at large magnification. Its application made it possible for the experimentalists to observe for the first time important hydrodynamic effects that trigger compressible turbulent mixing in laser targets, such as ablative Richtmyer–Meshkov (RM) instability, feedout, interaction of an RM-unstable interface with shock and rarefaction waves. It also helped to substantially improve the accuracy of diagnosing many other important plasma flows, ranging from laser-produced jets to electromagnetically driven wires in a Z-pinch, and to test various methods suggested for mitigation of the Rayleigh–Taylor instability. We will review the results obtained with the aid of this technique in ICF-HEDP studies at the Naval Research Laboratory and the prospects of its future applications." @default.
W2033992801 created "2016-06-24" @default.
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W2033992801 date "2008-12-01" @default.
W2033992801 modified "2023-10-16" @default.
W2033992801 title "Classical and ablative Richtmyer–Meshkov instability and other ICF-relevant plasma flows diagnosed with monochromatic x-ray imaging" @default.
W2033992801 cites W1964689752 @default.
W2033992801 cites W1965491935 @default.
W2033992801 cites W1967815162 @default.
W2033992801 cites W1976007117 @default.
W2033992801 cites W1978657060 @default.
W2033992801 cites W1980761246 @default.
W2033992801 cites W1983529807 @default.
W2033992801 cites W1983570272 @default.
W2033992801 cites W1983757428 @default.
W2033992801 cites W1987141317 @default.
W2033992801 cites W1993837611 @default.
W2033992801 cites W1996229240 @default.
W2033992801 cites W1996544212 @default.
W2033992801 cites W1997869375 @default.
W2033992801 cites W2000051790 @default.
W2033992801 cites W2000251483 @default.
W2033992801 cites W2000847386 @default.
W2033992801 cites W2003015281 @default.
W2033992801 cites W2003073010 @default.
W2033992801 cites W2004759426 @default.
W2033992801 cites W2005449836 @default.
W2033992801 cites W2006258874 @default.
W2033992801 cites W2009042293 @default.
W2033992801 cites W2010037645 @default.
W2033992801 cites W2012220031 @default.
W2033992801 cites W2015517020 @default.
W2033992801 cites W2018297327 @default.
W2033992801 cites W2023092001 @default.
W2033992801 cites W2024662008 @default.
W2033992801 cites W2026654472 @default.
W2033992801 cites W2026998140 @default.
W2033992801 cites W2027235395 @default.
W2033992801 cites W2027408362 @default.
W2033992801 cites W2027558927 @default.
W2033992801 cites W2029861886 @default.
W2033992801 cites W2030833317 @default.
W2033992801 cites W2031856769 @default.
W2033992801 cites W2034519661 @default.
W2033992801 cites W2035784990 @default.
W2033992801 cites W2037067553 @default.
W2033992801 cites W2037841306 @default.
W2033992801 cites W2038483184 @default.
W2033992801 cites W2039260330 @default.
W2033992801 cites W2040824452 @default.
W2033992801 cites W2041446455 @default.
W2033992801 cites W2042232771 @default.
W2033992801 cites W2044762956 @default.
W2033992801 cites W2046078579 @default.
W2033992801 cites W2049457828 @default.
W2033992801 cites W2050462939 @default.
W2033992801 cites W2056207205 @default.
W2033992801 cites W2057967919 @default.
W2033992801 cites W2062917405 @default.
W2033992801 cites W2064636378 @default.
W2033992801 cites W2065096517 @default.
W2033992801 cites W2066201813 @default.
W2033992801 cites W2069055728 @default.
W2033992801 cites W2079132775 @default.
W2033992801 cites W2080135993 @default.
W2033992801 cites W2081950389 @default.
W2033992801 cites W2082105132 @default.
W2033992801 cites W2082924812 @default.
W2033992801 cites W2084477100 @default.
W2033992801 cites W2088101042 @default.
W2033992801 cites W2091821960 @default.
W2033992801 cites W2127032068 @default.
W2033992801 cites W2130120235 @default.
W2033992801 cites W2142121904 @default.
W2033992801 cites W2146503644 @default.
W2033992801 cites W2162385003 @default.
W2033992801 cites W2504207971 @default.
W2033992801 cites W4239351171 @default.
W2033992801 doi "https://doi.org/10.1088/0031-8949/2008/t132/014021" @default.
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