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      Diagnosing collisions of magnetized, high energy density plasma flows using a combination of collective Thomson scattering, Faraday rotation, and interferometry (invited)

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          A high impedance mega‐ampere generator for fiber z‐pinch experiments

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            Time evolution of collisionless shock in counterstreaming laser-produced plasmas.

            We investigated the time evolution of a strong collisionless shock in counterstreaming plasmas produced using a high-power laser pulse. The counterstreaming plasmas were generated by irradiating a CH double-plane target with the laser. In self-emission streaked optical pyrometry data, steepening of the self-emission profile as the two-plasma interaction evolved indicated shock formation. The shock thickness was less than the mean free path of the counterstreaming ions. Two-dimensional snapshots of the self-emission and shadowgrams also showed very thin shock structures. The Mach numbers estimated from the flow velocity and the brightness temperatures are very high.
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              Characterizing counter-streaming interpenetrating plasmas relevant to astrophysical collisionless shocks

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                Author and article information

                Journal
                Review of Scientific Instruments
                Review of Scientific Instruments
                AIP Publishing
                0034-6748
                1089-7623
                November 2014
                November 2014
                : 85
                : 11
                : 11E502
                Article
                10.1063/1.4890564
                5ef3d0c5-8524-41d1-81e9-0bb4c89bc24d
                © 2014
                History

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