1987
DOI: 10.1070/qe1987v017n11abeh010953
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Formation of a shock wave structure under conditions of expansion of a laser plasma in a low-density gas

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Cited by 8 publications
(3 citation statements)
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“…Only the expansion of silicon in noble gases [7,8] and aluminum in O 2 [9] and N 2 [10] were modeled over wide pressure ranges. A scattering formalism [7,11] is appropriate to describe the complex plume dynamics, in particular when splitting is observed at specific distances and pressures, yet simpler hydrodynamic models retain their validity at the expense of a less accurate description of plume propagation [12][13][14]. The relation between ablated mass per pulse (M P ) and gas mass is a critical parameter that severely affects the different plasma expansion regimes and the corresponding plasma-gas energy exchange [15][16][17].…”
mentioning
confidence: 99%
“…Only the expansion of silicon in noble gases [7,8] and aluminum in O 2 [9] and N 2 [10] were modeled over wide pressure ranges. A scattering formalism [7,11] is appropriate to describe the complex plume dynamics, in particular when splitting is observed at specific distances and pressures, yet simpler hydrodynamic models retain their validity at the expense of a less accurate description of plume propagation [12][13][14]. The relation between ablated mass per pulse (M P ) and gas mass is a critical parameter that severely affects the different plasma expansion regimes and the corresponding plasma-gas energy exchange [15][16][17].…”
mentioning
confidence: 99%
“…22 The voltage spike was followed by a fairly constant voltage plateau and a slow current rise which corresponds to a matched-load operation with a ''slow'' change of the AC gap due to the plasma motion across magnetic field. These values are estimated to be (2 -3) j CL .…”
Section: Ib Ballistic Focusingmentioning
confidence: 99%
“…In a typical pulse, the MID current wave form has a short duration spike of a few tens of nanoseconds, due to the fast erosion of the low density plasma already present in the AC gap, and the voltage pulse front had an overshooting spike typical for a plasma erosion switch operation. 22 The voltage spike was followed by a fairly constant voltage plateau and a slow current rise which corresponds to a matched-load operation with a ''slow'' change of the AC gap due to the plasma motion across magnetic field. The speed of the plasma motion was estimated to be (0.2-0.5)ϫ10 6 cm/s with a B field of (2 -3)B cr based on the pulse duration up to the shorting when operating without the crowbar.…”
Section: Ib Ballistic Focusingmentioning
confidence: 99%