High-brightness near-GeV energy electron beams from a laser wakefield accelerator for long-standoff nuclear interrogation

Nathan Powers; Sudeep Banerjee; Vidya Ramanathan; Nathaniel Cunningham; Nate Chandler-Smith; Donald Umstadter; Randy Vane; David Schultz; Shaun Clarke; Sara Pozzi

High-brightness near-GeV energy electron beams from a laser wakefield accelerator for long-standoff nuclear interrogation

ORAL

Abstract

High-brightness monochromatic electron beams are generated in a wakefield accelerator driven by a 100 TW laser. The energy can be varied from 20-800 MeV by varying laser and plasma parameters. Stable electron beams are obtained using self-injection and optical injection. The ability of these beams to penetrate large thicknesses of dense material and an angular spread of $<$5 mrad makes them suitable as active interrogation probes for long standoff nuclear activation of concealed nuclear materials. A series of ($\gamma $,xn) activation measurements were performed to demonstrate the viability of this technique. MCNP and GEANT Monte Carlo simulations are used to aid experiment design and interpretation.

^*Work Supported by Defense Advanced Research Projects Agency, Department of Energy, and Domestic Nuclear Detection Office DHS

Nov. 5, 2009, 10:06 AM – Nov. 5, 2009, 10:18 AM

Authors

Nathan Powers
- University of Nebraska-Lincoln
Sudeep Banerjee
- University of Nebraska-Lincoln
Vidya Ramanathan
- University of Nebraska-Lincoln
Nathaniel Cunningham
- University of Nebraska-Lincoln
Nate Chandler-Smith
- University of Nebraska-Lincoln
Donald Umstadter
- University of Nebraska-Lincoln
Randy Vane
- Oak Ridge National Laboratory
David Schultz
- Oak Ridge National Laboratory
Shaun Clarke
- University of Michigan
Sara Pozzi
- University of Michigan