Plasma-based studies with intense X-ray and particle beam sources

R.W. LEE; H.A. BALDIS; R.C. CAUBLE; O.L. LANDEN; J.S. WARK; A. NG; S.J. ROSE; C. LEWIS; D. RILEY; J.-C. GAUTHIER; P. AUDEBERT

doi:10.1017/S0263034602202293

Abstract

The construction of short pulse (<200 fs) tunable X-ray laser sources based on the X-ray free electron laser (XFEL) concept will be a watershed for plasma-based and warm dense matter research. These new fourth generation light sources will have extremely high fields and short wavelengths (∼0.1 nm) with peak spectral brightnesses 1010 greater than third generation sources. Further, the high intensity upgrade of the GSI accelerator facilities will lead to specific energy depositions up to 200 kJ/g and temperatures between 1 and 10 eV at almost solid-state densities, enabling interesting experiments in the regime of nonideal plasmas, such as the evolution of intense ion beams in the interior of a Jovian planet. Below we discuss several applications: the creation of warm dense matter (WDM) research, probing of near solid density plasmas, and laser–plasma spectroscopy of ions in plasmas. The study of dense plasmas has been severely hampered by the fact that laser-based methods have been unavailable and these new fourth generation sources will remove these restrictions.

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Plasma-based studies with intense X-ray and particle beam sources

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