Demonstration of high gain in a recombination XUV laser at 18.2 nm driven by a 20 J, 2 ps glass laser

Demonstration of high gain in a recombination XUV laser at 18.2 nm driven by a 20 J, 2 ps glass laser

An exceptionally high gain coefficient has been obtained at 18.2 nm in a C VI recombination laser driven by a 2 ps, 20 J, Nd-glass laser operating by chirped pulse amplification. Carbon fiber targets of 7 μm diameter and up to 5 mm length were irradiated at 6 × 1015 W cm-2. The time and space integr...

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Bibliographic Details
Main Authors: Zhang, J, Key, M, Norreys, P, Tallents, G, Behjat, A, Danson, C, Demir, A, Dwivedi, L, Holden, M, Holden, P, Lewis, C, MacPhee, A, Neely, D, Pert, G, Ramsden, SA, Rose, S, Shao, Y, Thomas, O, Walsh, F, You, Y
Format: Journal article
Language:English
Published: 1995
Description
Summary:An exceptionally high gain coefficient has been obtained at 18.2 nm in a C VI recombination laser driven by a 2 ps, 20 J, Nd-glass laser operating by chirped pulse amplification. Carbon fiber targets of 7 μm diameter and up to 5 mm length were irradiated at 6 × 1015 W cm-2. The time and space integrated gain coefficient on the 18.2 nm Balmer α transition was measured to be 12.5 ± 1.5 cm-1. Comparison with numerical modeling suggests that saturated laser action would be obtained with less than a factor of 2 increase in length.

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