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Multi-scale simulation of intense laser plasma interactions

Lead Research Organisation: Imperial College London
Department Name: Physics

Abstract

Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.

Publications

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Déziel J (2018) Femtosecond self-reconfiguration of laser-induced plasma patterns in dielectrics in Physical Review B

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Peebles J (2018) High-angle deflection of the energetic electrons by a voluminous magnetic structure in near-normal intense laser-plasma interactions in Physical Review E

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Huang T (2018) Electron acceleration induced by interaction of two relativistic laser pulses in underdense plasmas in Physical Review E

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Culfa O (2016) Plasma scale-length effects on electron energy spectra in high-irradiance laser plasmas in Physical Review E

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Gong Z (2020) Direct laser acceleration of electrons assisted by strong laser-driven azimuthal plasma magnetic fields in Physical Review E

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Huang T (2017) Relativistic laser hosing instability suppression and electron acceleration in a preformed plasma channel in Physical Review E

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Ma Y (2020) Polarization-Dependent Self-Injection by Above Threshold Ionization Heating in a Laser Wakefield Accelerator. in Physical review letters

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Tooley MP (2017) Towards Attosecond High-Energy Electron Bunches: Controlling Self-Injection in Laser-Wakefield Accelerators Through Plasma-Density Modulation. in Physical review letters

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Scott GG (2018) Dual Ion Species Plasma Expansion from Isotopically Layered Cryogenic Targets. in Physical review letters

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Gong Z (2023) Electron Polarization in Ultrarelativistic Plasma Current Filamentation Instabilities. in Physical review letters

 
Description Developed, tested and made available a very high performance computer model of lasers and high temperature plasmas.

Used the model to design a novel electron mirror to control and collimate the relativistic electrons from an ultra high power laser beam.
Exploitation Route The plasma code Epoch is now widely used by universities in the UK and Europe.
Sectors Education

Energy

Environment
 
Description The plasma code Epoch has been used by us to address problems in laser plasma physics relevant to Inertial Confinement Fusion. The code is used by many universities in the UK and Europe.
First Year Of Impact 2011
Sector Education,Energy