The production and evolution of multiple converging radiative shock waves in gas-filled cylindrical liner z-pinch experiments |
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Authors: | G.C. Burdiak S.V. Lebedev R.P. Drake A.J. Harvey-Thompson G.F. Swadling F. Suzuki-Vidal J. Skidmore L. Suttle E. Khoory L. Pickworth P. de Grouchy G.N. Hall S.N. Bland M. Weinwurm J.P. Chittenden |
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Affiliation: | 1. Blackett Laboratory, Imperial College London, London SW7 2BW, United Kingdom;2. Institute of Shock Physics, Imperial College London, London SW7 2BW, United Kingdom;3. University of Michigan, Ann Arbor, MI, USA |
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Abstract: | A cylindrical liner z-pinch configuration has been used to drive converging radiative shock waves into different gases. On application of a 1.4 MA, 240 ns rise-time current pulse, a series of cylindrical shocks moving at typical velocities of 20 km s?1 are consecutively launched from the inside liner wall into an initially static gas-fill of density ~10?5 g cm?3. The drive current skin depth calculated prior to resistive heating was slightly less than the liner wall thickness and no bulk liner implosion occurred. Axial laser probing images show the shock fronts to be smooth and azimuthally symmetric, with instabilities developing downstream of each shock. Evidence for a radiative precursor ahead of the first shock was seen in laser interferometry imaging and time-gated, spatially resolved optical spectroscopy. The interferometry diagnostic was able to simultaneously resolve the radiative precursor and the density jumps at the shock fronts. Optical streak photography provided information on shock timing and shock trajectories and was used to gain insight into the shock launching mechanisms. |
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