Energy concentration by relativistic/charge-displacement self-focusing of intense subpicosecond ultraviolet (248 mm) radiation in plasmas

X. M. Shi; A. B. Borisov; A. B. Borisov; A. V. Borovskiy; A. V. Borovskiy; V. V. Korobkin; V. V. Korobkin; A. M. Prokhorov; A. M. Prokhorov; O. B. Shiryaev; O. B. Shiryaev; T. S. Luk; A. McPherson; J. C. Solem; J. C. Solem; K. Boyer; C. K. Rhodes

Conference on Lasers and Electro-Optics
OSA Technical Digest (Optica Publishing Group, 1992),
paper CWB4

Energy concentration by relativistic/charge-displacement self-focusing of intense subpicosecond ultraviolet (248 mm) radiation in plasmas

X. M. Shi, A. B. Borisov, A. V. Borovskiy, V. V. Korobkin, A. M. Prokhorov, O. B. Shiryaev, T. S. Luk, A. McPherson, J. C. Solem, K. Boyer, and C. K. Rhodes

Conference on Lasers and Electro-Optics 1992

Anaheim, California United States
10–15 May 1992
ISBN: 1-55752-537-5

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Laser-Target Interaction Physics (CWB)

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X. M. Shi, A. B. Borisov, A. V. Borovskiy, V. V. Korobkin, A. M. Prokhorov, O. B. Shiryaev, T. S. Luk, A. McPherson, J. C. Solem, K. Boyer, and C. K. Rhodes, "Energy concentration by relativistic/charge-displacement self-focusing of intense subpicosecond ultraviolet (248 mm) radiation in plasmas," in Conference on Lasers and Electro-Optics, A. Johnson, R. Lind, T. Baer, and A. Smirl, eds., Vol. 12 of OSA Technical Digest (Optica Publishing Group, 1992), paper CWB4.

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Abstract

Amplification in the x-ray range requires prodigious energy deposition rates spatially organized in a high-aspect-ratio volume of matter.¹ Theoretical studies^2–6 indicate that a confined stable mode of propagation can be achieved by relativistic/charge-displacement self-focusing of intense subpicosecond ultraviolet (248 nm) radiation in plasmas. We present what we believe to be the first experimental observations supporting the existence of this phenomenon.

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