Oxford Centre for High Energy Density Science (OxCHEDS)

Alternative methods of producing photoionised plasmas in the laboratory

High Energy Density Physics Elsevier 7:4 (2011) 377-382

Authors:

EG Hill, SJ Rose

The effect of unresolved transition arrays on plasma opacity calculations

High Energy Density Physics Elsevier 7:4 (2011) 240-246

Authors:

JA Gaffney, SJ Rose

Numerical simulation of plasma-based raman amplification of laser pulses to petawatt powers

IEEE Transactions on Plasma Science 39:11 PART 1 (2011) 2622-2623

Authors:

RMGM Trines, F Fiuza, RA Fonseca, LO Silva, R Bingham, RA Cairns, PA Norreys

Abstract:

Contemporary high-power laser systems make use of solid-state laser technology to reach petawatt pulse powers. The breakdown threshold for optical components in these systems, however, demands beam diameters up to 1 m. Raman amplification of laser beams promises a breakthrough by the use of much smaller amplifying media, i.e., millimeter-diameter-wide plasmas. Through the first large-scale multidimensional particle-in-cell simulations of this process, we have identified the parameter regime where multipetawatt peak laser powers can be reached, while the influence of damaging laser-plasma instabilities is only minor. Snapshots of the probe laser pulse being amplified, generated using state-of-the-art visualization techniques, are presented. © 2006 IEEE.

Proton probe imaging of fields within a laser-generated plasma channel

IEEE Transactions on Plasma Science 39:11 PART 1 (2011) 2616-2617

Authors:

L Willingale, PM Nilson, AGR Thomas, J Cobble, RS Craxton, A Maksimchuk, PA Norreys, TC Sangster, RHH Scott, C Stoeckl, C Zulick, K Krushelnick

Abstract:

The proton probing technique is used to image quasi-static electromagnetic fields present in the wake of a high-intensity short-pulse laser propagating through an underdense plasma. Bubblelike field structures form along the channel filaments and expand in time. © 2006 IEEE.

Proton radiography of intense-laser-irradiated wire-attached cone targets

IEEE Transactions on Plasma Science 39:11 PART 1 (2011) 2822-2823

Authors:

T Yabuuchi, H Sawada, T Bartal, D Batani, LA Gizzi, MH Key, AJ MacKinnon, HS McLean, PA Norreys, PK Patel, RB Stephens, C Spindloe, W Theobald, MS Wei, FN Beg

Abstract:

Measurements of extreme electrostatic and magnetic fields are of interest for the study of high-energy-density plasmas. Results of proton deflectometry of cone-wire targets that are of interest to fast-ignition inertial confinement fusion are presented. © 2006 IEEE.