RSOM applies dictionary learning to discover a sparse dictionary that conditions the analytic continuation inverse problem, yielding competitive results on synthetic tests and finite-temperature electron gas QMC data.
Ichimaru, Strongly coupled plasmas: high-density classical plasmas and degenerate electron liquids, Rev
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A 266 nm Mach-Zehnder interferometer with ICCD imaging and Fourier analysis was developed to measure line-integrated electron densities in nanosecond-resolved dense plasmas generated in 100-bar supercritical helium, yielding a peak local density of ~2.5e18 cm^{-3} after Abel inversion.
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Discovering a well-conditioned analytic continuation problem via dictionary learning
RSOM applies dictionary learning to discover a sparse dictionary that conditions the analytic continuation inverse problem, yielding competitive results on synthetic tests and finite-temperature electron gas QMC data.
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Nanosecond-resolved 266 nm Mach-Zehnder interferometry for electron-density measurements of dense plasmas generated in supercritical fluids
A 266 nm Mach-Zehnder interferometer with ICCD imaging and Fourier analysis was developed to measure line-integrated electron densities in nanosecond-resolved dense plasmas generated in 100-bar supercritical helium, yielding a peak local density of ~2.5e18 cm^{-3} after Abel inversion.