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Name: |
Professor AR Bell |
Organisation: |
University of Oxford |
Department: |
Oxford Physics |
Current EPSRC-Supported Research
Topics: |
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Current EPSRC Support |
There is no current EPSRC Support |
Previous EPSRC Support |
EP/N014472/1 | Particle acceleration in magnetised shocks produced by laser and pulsed power facilities | (C) |
EP/L000237/1 | Plasma Physics HEC Consortia | (C) |
EP/G055165/1 | Multi-scale simulation of intense laser plasma interactions | (P) |
GR/R71979/01 | Fokker-Planck simulations of transport and absorption in laser-produced plasmas | (P) |
GR/R23909/01 | Relativistic Particle Generation From Ultra-Intense Laser Plasma Interactions | (C) |
GR/M38988/01 | ELECTRON TRANSPORT IN HIGH INTENSITY LASER-SOLID INTERACTIONS | (P) |
GR/L79151/01 | LASER PLASMA WAVE GENERATION AND ELECTRON ACCELERATION | (C) |
GR/L04498/01 | ULTRA-HIGH INTENSITY, SUB-PICOSECOND LASER INTERACTIONS WITH SOLIDS AT THE CLF. | (C) |
GR/K19198/01 | FOKKER-PLANCK CALCULATIONS OF MAGNETISED LASER-PLASMAS | (P) |
GR/J90770/01 | LARGE AMPLITUDE PLASMA WAVE GENERATION BY INTENSE PICOSECOND LASER PULSES | (C) |
GR/J83703/01 | HYDRODYNAMIC AND MAGNETOHYDRODYNAMIC SIMULATION OF LABORATORY PLASMAS | (P) |
GR/J39830/01 | INVESTIGATION OF COLLIMATED FLOWS IN PLASMAS GENERATED BY SHORT LASER PULSES | (C) |
GR/J01738/01 | THE NON-LINEAR RAYLEIGH-TAYLOR INSTABILITY IN LASER-DRIVEN TARGETS | (P) |
GR/H64262/01 | THE NON-LINEAR RAYLEIGH-TAYLOR INSTABILITY IN LASER-DRIVEN INERTIAL CONFINEMENT FUSION TARGETS | (P) |
GR/H33428/01 | FOKKER PLANCK SIMULATIONS OF PLASMA IRRADIATED WITH A SHORT LASER PULSE | (P) |
GR/F52835/01 | WORKSTATION FOR PLASMA PHYSIS RESEARCH | (P) |
GR/F19036/01 | 3D COMPUTER SIMULATIONS OF LASER- DRIVEN IMPLOSIONS | (P) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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