Oxford Centre for High Energy Density Science (OxCHEDS)

Stable laser-driven electron beams from a steady-state-flow gas cell

AIP Conference Proceedings 1086 (2009) 125-130

Authors:

J Osterhoff, A Popp, Z Major, B Marx, TP Rowlands-Rees, M Fuchs, R Hörlein, F Grüner, D Habs, F Krausz, SM Hooker, S Karsch

Abstract:

Quasi-monoenergetic, laser-driven electron beams of up to ∼ 200 MeV in energy have been generated from steady-state-flow gas cells [1], These beams are emitted within a low-divergence cone of 2.1 ± 0.5 mrad FWHM and feature unparalleled shot-to-shot stability in energy (2.5% rms), pointing direction (1.4 mrad rms) and charge (16% rms) owing to a highly reproducible plasma-density profile within the laser-plasma-interaction volume. Laser-wakefield acceleration (LWFA) in gas cells of this type constitutes a simple and reliable source of relativistic electrons with well defined properties, which should allow for applications such as the production of extreme-ultraviolet undulator radiation in the near future. © 2009 American Institute of Physics.

Accretion disk dynamics, photoionized plasmas, and stellar opacities

Physics of Plasmas AIP Publishing 16:4 (2009) 041001

Authors:

RC Mancini, JE Bailey, JF Hawley, T Kallman, M Witthoeft, SJ Rose, H Takabe

XUV Opacity of Aluminum between the Cold-Solid to Warm-Plasma Transition

(2009)

Authors:

SM Vinko, G Gregori, B Nagler, TJ Whitcher, MP Desjarlais, RW Lee, P Audebert, JS Wark

Progress in fast ignition

Chapter in Laser-Plasma Interactions, (2009) 361-375

Waveguides for high-intensity laser pulses

(2009) 79-100