Measurements of ultraintense ultrafast laser pulse electron acceleration through analysis of radioactive products

D.R. Schultz; C.R. Vane; J.R. Beene; S. Reed; A. Maksimchuk; V. Yanovsky; V. Chvykov; G. Kalintchenko; S. Banerjee; D. Umstadter

Measurements of ultraintense ultrafast laser pulse electron acceleration through analysis of radioactive products

ORAL

Abstract

Rapid progress has recently been achieved in development of techniques to controllably accelerate charged particles to relativistic energies using plasma wake fields generated in gas or dense media using ultraintense ultrafast laser pulses. An inherent technical difficulty in these experiments lies in complications of measuring the energy and angular distributions of large numbers ($>$ 10$^{9})$ of `simultaneously' ($\sim $ ps) accelerated particles. We will discuss experimental techniques developed for interrogation of laser accelerated electrons, including methods based on production of radioactive targets.

^*Work supported by the Laboratory Directed Research and Development Program of Oak Ridge National Laboratory, managed by UT-Battelle, LLC, for the U.S. DOE under Contract No. DE-AC05-00OR22725, and the NSF through the Physics Frontier Center FOCUS

June 8, 2007, 1:18 PM – June 8, 2007, 1:30 PM

Authors

D.R. Schultz
- Oak Ridge National Lab
- Oak Ridge National Laboratory
C.R. Vane
- Oak Ridge National Laboratory
J.R. Beene
- Oak Ridge National Laboratory
S. Reed
- University of Michigan
A. Maksimchuk
- University of Michigan
V. Yanovsky
- University of Michigan
V. Chvykov
- University of Michigan
G. Kalintchenko
- University of Michigan
S. Banerjee
- University of Nebraska
D. Umstadter
- University of Nebraska