Generation of Monoenergetic proton beams from double-layer foils by flat-top laser pulses..

Stepan Bulanov; Vladimir Chvykov; Andrei Brantov; Valery Bychenkov; Galina Kalinchenko; Takeshi Matsuoka; Pascal Rousseau; Stephen Reed; Viktor Yanovsky; Dale Litzenberg; Karl Krushelnick; Anatoly Maksimchuk

Generation of Monoenergetic proton beams from double-layer foils by flat-top laser pulses..

ORAL

Abstract

The effect of laser pulse shaping on the proton acceleration by a tightly focused pulse from ultra-thin double layer solid targets in the regime of Directed Coulomb Explosion (DCE) is discussed. The theoretical model and the results of PIC simulations of this regime are presented. In DCE regime the foil is first accelerated by the radiation pressure and then experiences a Coulomb explosion thus generating a moving charge separation longitudinal field that effectively accelerates second layer protons. The utilization of the pulse shaping, namely the use of flat-top pulses, leads to a significant enhancement of the efficiency of proton acceleration due to the increase of the longitudinal field.

Nov. 13, 2007, 11:42 AM – Nov. 13, 2007, 11:54 AM

Authors

Stepan Bulanov
- FOCUS Center and CUOS, University of Michigan
- FOCUS Center and CUOS, University of Michigan, Ann Arbor, Michigan
- FOCUS and CUOS, University of Michigan
Vladimir Chvykov
- FOCUS and CUOS, University of Michigan
Andrei Brantov
- Phys. Inst., Russian Academy of Sciences
Valery Bychenkov
- Phys. Inst., Russian Academy of Sciences
Galina Kalinchenko
- FOCUS and CUOS, University of Michigan
Takeshi Matsuoka
- FOCUS and CUOS, University of Michigan
Pascal Rousseau
- FOCUS and CUOS, University of Michigan
Stephen Reed
- FOCUS and CUOS, University of Michigan
Viktor Yanovsky
- FOCUS and CUOS, University of Michigan
Dale Litzenberg
- Dep. Rad. Oncology, University of Michigan
Karl Krushelnick
- FOCUS and CUOS, University of Michigan
Anatoly Maksimchuk
- FOCUS and CUOS, University of Michigan