Observation of Weibel-like radial filamentation from time resolved dynamics of a kHz relativistic laser interaction with a sub-micron transparent sheet

ORAL

Abstract

A significant amount of work has been done on relativistic electron dynamics where results are inferred from emitted particles and various probes parallel to the target surface. In this work a free standing sub-micron transparent liquid sheet target is exploited to produce shadowgraphic movies of the transverse expansion of the relativistic electrons with 100 fs resolution. The ionization front expansion rate, extent, and duration are observable in addition to the subsequent hydrodynamic evolution of the target. Particle-in-cell (PIC) simulations indicate Weibel instability generated radial current filaments corroborated by features observed in the shadowgraphy.

*This research was sponsored by the Air Force Office of Scientific Research through program managers Dr. Enrique Parra and Dr. Jean-Luc Cambier.

Presenters

  • John T Morrison

    • Innovative Scientific Solutions, Inc., Dayton, OH
    • Innovative Scientific Solutions Inc., Dayton, OH
    • Innovative Scientific Solutions Inc. - Dayton, OH
    • Innovative Scientific Solutions, Inc.
    • Innovative Scientific Solutions Inc.

Authors

  • John T Morrison

    • Innovative Scientific Solutions, Inc., Dayton, OH
    • Innovative Scientific Solutions Inc., Dayton, OH
    • Innovative Scientific Solutions Inc. - Dayton, OH
    • Innovative Scientific Solutions, Inc.
    • Innovative Scientific Solutions Inc.

  • Gregory K. Ngirmang

    • Innovative Scientific Solutions, Inc., Dayton, OH
    • Innovative Scientific Solutions Inc., Dayton, OH
    • Ohio State Univ - Columbus
    • Innovative Scientific Solutions, Inc.
    • Innovative Scientific Solutions Inc.

  • Scott B Feister

    • The University of Chicago, Flash Center, Chicago, IL
    • Univ of Chicago

  • Kevin M George

    • Innovative Scientific Solutions Inc., Dayton, OH
    • Innovative Scientific Solutions Inc. - Dayton, OH
    • Innovative Scientific Solutions, Inc.
    • Innovative Scientific Solutions Inc.

  • Adam J Klim

    • The Ohio State University, Department of Physics, Columbus, OH
    • Ohio State Univ - Columbus

  • Joseph C Snyder

    • Miami University, Hamilton, OH
    • Miami Univ
    • Miami Univ - Hamilton

  • Joe R Smith

    • The Ohio State University, Department of Physics, Columbus, OH
    • Ohio State Univ - Columbus

  • Kyle Frische

    • Innovative Scientific Solutions Inc., Dayton, OH
    • Innovative Scientific Solutions Inc. - Dayton, OH
    • Innovative Scientific Solutions, Inc.
    • Innovative Scientific Solutions Inc.

  • Chris M Orban

    • Innovative Scientific Solutions, Inc., Dayton, OH, The Ohio State University, Department of Physics, Columbus, OH
    • The Ohio State University, Department of Physics, Columbus, OH, Innovative Scientific Solutions Inc., Dayton, OH
    • Ohio State Univ - Columbus
    • The Ohio State University, Department of Physics, Columbus, OH, Innovative Scientific Solutions, Inc.

  • Enam A Chowdhury

    • The Ohio State University, Department of Physics, Columbus, OH
    • The Ohio State University, Department of Physics, Columbus, OH, Intense Energy Solutions Inc., Dayton, OH
    • Ohio State Univ - Columbus
    • The Ohio State University, Department of Physics, Columbus, OH, Intense Energy Solutions, Inc., Dayton, OH

  • William M Roquemore

    • Air Force Research Laboratory, Aerospace Directorate, WPAFB, OH