HPLSET - High Power Laser Science and Engineering Technology
  • C. Geddes (US) LBNL

WA2.5 - MULTI-GEV ELECTRONS FROM LASER WAKEFIELD ACCELERATION AND FUTURE HIGH REPETITION RATE SYSTEMS

Presentation Type
Invited Submission
Authors
  • C. Geddes (US) LBNL
  • A. Gonsalves (US) LBNL
  • K. Nakamura (US) LBNL
  • J. Van Tilborg (US) LBNL
  • S. Steinke (US) LBNL
  • C. Toth (US) LBNL
  • C. Benedetti (US) LBNL
  • S. Bulanov (US) LBNL
  • R. Lehe (US) LBNL
  • J. Vay (US) LBNL
  • C. Schroeder (US) LBNL
  • S. Barber (US) LBNL
  • J. Bin (US) LBNL
  • T. Ostermayr (US) LBNL
  • H. Tsai (US) LBNL
  • J. Daniels (US) LBNL
  • L. Fan-Chiang (US) LBNL
  • F. Isono (US) LBNL
  • C. Pieronek (US) LBNL
  • K. Swanson (US) LBNL
  • E. Esarey (US) LBNL
Date
08/21/2019
Time
10:00 AM - 12:15 PM
Room
Sandpiper A/B
Duration
30 Minutes
Lecture Time
11:45 AM - 12:15 PM

Abstract

Abstract

Laser driven plasma waves enable compact accelerators. Energies to 7.8 GeV were achieved in 20cm, and multi-GeV staging is being prepared towards future colliders. Compact photon source applications include FELs and MeV Thomson scattering. Laser development is important for high repetition rate and precision.

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