During the propagation in the plasma, a super-intense and ultra-short laser pulse deeply changes its parameters due the onset of non-linear effects. These extreme conditions are suitable for the electron acceleration in high field gradient, opening the way for the realization of compact secondary sources of X-c rays. In particular the Betatron Radiation in the so called bubble regime and the all-optical Thomson Backscattering are presented as good candidate in this sense.
Laser induced plasma channels and related X-γ ray sources
GIULIETTI, DANILO;CURCIO, ALESSANDRO
2015-01-01
Abstract
During the propagation in the plasma, a super-intense and ultra-short laser pulse deeply changes its parameters due the onset of non-linear effects. These extreme conditions are suitable for the electron acceleration in high field gradient, opening the way for the realization of compact secondary sources of X-c rays. In particular the Betatron Radiation in the so called bubble regime and the all-optical Thomson Backscattering are presented as good candidate in this sense.File in questo prodotto:
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