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Data-driven modelling of laser-plasma experiments enabled by large datasets.

ORAL

Abstract

Laser Wakefield Acceleration (LWFA) is a process by which high gradient plasma waves are excited by a laser leading to the acceleration of electrons. The process is highly nonlinear leading to difficulties in developing 3 dimensional models for a priori, and/or ab initio prediction.

Recent experiments at the Rutherford Appleton Laboratory’s (RAL) Central Laser Facility (CLF) in the United Kingdom using the 5Hz repetition rate Astra-Gemini laser have produced new results in LWFA research, inviting analysis of data with unprecedented resolution. Additionally, data driven modeling, scaling laws and models can be extended into new ranges or refined with less bias.

We will present results of training deep neural networks to generate spectra given scalar parameters corresponding to independent experimental variables and discuss the ability of the model to generalize. This work will use architectures which rely on reparameterization using a small dense network connected to a larger, generative, convolutional neural network.

Presenters

  • Andre F Antoine

    University of Michigan

Authors

  • Andre F Antoine

    University of Michigan

  • Alexander G Thomas

    University of Michigan, University of Michigan - Ann Arbor

  • Jason A Cardarelli

    University of Michigan

  • Matthew J. V Streeter

    Queen's University Belfast, The Queens University of Belfast, The Cockcroft Institute

  • Chris D Murphy

    University of York

  • Karl M Krushelnick

    University of Michigan, Center for Ultra-Fast Optics, University of Michigan, Ann Arbor, Michigan USA, University of Michigan - Ann Arbor, Gérard Mourou Center for Ultrafast Optical Science, University of Michigan, Ann Arbor, Michigan 48109, USA

  • Christopher Arran

    University of York

  • Stuart P.D. Mangles

    Imperial College London

  • Zulfikar Najmudin

    Imperial College London, Imperial College London, UK

  • Archis Joglekar

    Polymath Research Inc

  • Mario Balcazar

    University of Michigan

  • Peter W Hatfield

    University of Oxford

  • Nicholas Bourgeois

    STFC Central Laser Facility, Central Laser Facility, Rutherford Appleton Lab

  • Stephen J Dann

    STFC Central Laser Facility, Central Laser Facility, The Cockcroft Institute

  • Jan-Niclas Gruse

    Imperial College London

  • Daniel R Symes

    Rutherford Appleton Lab

  • Christopher P Ridgers

    University of York

  • Ashwin J Shahani

    University of Michigan

  • Rob Shalloo

    DESY

  • Savio V Rozario

    Imperial College London

  • Kristjan Poder

    Imperial College London

  • Jens Osterhoff

    Deutsches Elektronen-Synchrotron DESY, DESY, Deutsches Elektronen-Synchrotron (DESY)

  • Matthew P Selwood

    University of York

  • Michael Backhouse

    Imperial College London

  • Christopher Underwood

    University of York

  • Jiwoong Kang

    University of Michigan

  • Pattathil Rajeev

    Rutherford Appleton Lab, Central Laser Facility

  • Christopher Baird

    Rutherford Appleton Lab, Central Laser Facility

  • Ning Lu

    University of Michigan