A nonlinear plasma retroreflector for single pulse Compton backscattering

J.P. Palastro; Dmitri Kaganovich; Daniel Gordon; B. Hafizi; J. Penano; Michael Helle; A. Ting

A nonlinear plasma retroreflector for single pulse Compton backscattering

ORAL

Abstract

A long laser pulse focused onto the edge of a gas jet nozzle launches a shock wave. The shock wave and gas jet flow collide forming a density spike [1]. The leading edge of an incident ultrashort laser pulse ionizes the gas, while the bulk undergoes a nonlinear Poynting flux reversal from the ionized spike. The resulting counterpropagating field can Compton backscatter from electrons accelerated in the ultrashort pulse's wakefield, upshifting the frequency. We examine the reversal mechanism and properties of the counterpropagating field to optimize the Compton scattered radiation. \\[4pt] [1] D. Kaganovich \textit{et al.}, Phys. Plasmas 18, 120701 (2011).

Oct. 28, 2014, 4:48 PM – Oct. 28, 2014, 5:00 PM

Authors

J.P. Palastro
- Icarus Research, Inc.
- Icarus Research Inc
- Icarus Research
Dmitri Kaganovich
- Naval Research Laboratory
- US Naval Research Laboratory
Daniel Gordon
- Naval Research Lab
- Naval Research Laboratory
- US Naval Research Laboratory
B. Hafizi
- Naval Research Lab
- Naval Research Laboratory
- Plasma Physics Div., Naval Research Laboratory, Washington, DC
J. Penano
- Plasma Physics Div., Naval Research Laboratory, Washington, DC
- Naval Research Laboratory
Michael Helle
- Naval Research Lab
- Plasma Physics Div., Naval Research Laboratory, Washington, DC
- Naval Research Laboratory
- US Naval Research Laboratory
A. Ting
- Plasma Physics Div., Naval Research Laboratory, Washington, DC
- Naval Research Laboratory