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Hydrodynamic approach to the interaction of a relativistic ultrashort laser pulse with an underdense plasma

The interaction of an ultrashort, high peak power laser pulse with an underdense plasma is investigated within a physical model based on the three-dimensional cold hydrodynamic approach, which allows one to study the dynamics of the laser pulse and of the generated wakefields self-consistently, in t...

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Published in:	Physical review. E, Statistical, nonlinear, and soft matter physics Statistical, nonlinear, and soft matter physics, 2001-05, Vol.63 (5 Pt 2), p.056409-056409
Main Authors:	Farina, D, Lontano, M, Murusidze, I G, Mikeladze, S V
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Language:	English
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creator	Farina, D Lontano, M Murusidze, I G Mikeladze, S V
description	The interaction of an ultrashort, high peak power laser pulse with an underdense plasma is investigated within a physical model based on the three-dimensional cold hydrodynamic approach, which allows one to study the dynamics of the laser pulse and of the generated wakefields self-consistently, in the fully relativistic, strongly nonlinear regime. Our model is developed with the aim of describing very short laser pulses (with l(0)
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title	Hydrodynamic approach to the interaction of a relativistic ultrashort laser pulse with an underdense plasma
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