Observation of Relativistic Charge-Displacement Self-Channeling of Intense Subpicosecond Ultraviolet (248 nm) Radiation in Plasmas

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

XVIII International Quantum Electronics Conference
Technical Digest Series (Optica Publishing Group, 1992),
paper TuF2

Observation of Relativistic Charge-Displacement Self-Channeling of Intense Subpicosecond Ultraviolet (248 nm) Radiation in Plasmas

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

International Quantum Electronics Conference 1992

Vienna Austria
14–19 June 1992
ISBN:

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Atoms and Molecules in Intense Fields (TuF)

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A. B. BORISOV, A. V. Borovskiy, V. V. Korobkin, A. M. Prokhorov, O. B. Shiryaev, X. M. Shi, T. S. Luk, A. McPherson, J. C. Solem, K. Boyer, and C. K. Rhodes, "Observation of Relativistic Charge-Displacement Self-Channeling of Intense Subpicosecond Ultraviolet (248 nm) Radiation in Plasmas," in XVIII International Quantum Electronics Conference, Technical Digest Series (Optica Publishing Group, 1992), paper TuF2.

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Abstract

A fundamentally new regime of electromagnetic propagation is expected to arise in plasmas for short-pulse radiation at sufficiently high intensity. Dynamical^[1,2] and stationary^[3,4] calculations, incorporating both relativistic and combined relativistic and charge-displacement nonlinearities, indicate the possibility of stable spatially combined (channeled) propagation.

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