Collisionless shock gas jet experiments at OMEGA

Tim M Johnson; Graeme Sutcliffe; Jacob A Pearcy; Andrew Birkel; Vladimir Tikhonchuk; Joe D Katz; Richard Petrasso; Chikang Li

Collisionless shock gas jet experiments at OMEGA

ORAL

Abstract

We report OMEGA experiments utilizing a gas jet system to produce and study collisionless shocks. A hollow CH hemisphere is illuminated with lasers to produce a supersonic plasma flow. The plasma flow collides with a hydrogen gas jet and the two plasmas interact to form a collisionless shock. Imaging Thomson scattering measurements clearly show density and temperature jumps. Density increases by a factor of about 3 and temperature by a factor of about 5. The plasma flow velocity is measured to be greater than 1500 km/s leading to carbon-carbon collision mean free path of about 2 cm which is much larger than the shock front thickness (about 100 um). This indicates that the system is collisionless. Proton radiography data show a shock structure that evolves in time.

Nov. 11, 2021, 4:24 PM – Nov. 11, 2021, 4:36 PM

Presenters

Tim M Johnson

Massachusetts Institute of Technology, Massachusetts Institute of Technology MIT

Authors

Tim M Johnson

Massachusetts Institute of Technology, Massachusetts Institute of Technology MIT
Graeme Sutcliffe

Massachusetts Institute of Technology, Massachusetts Institute of Technology MIT, Massachusetts Institute of Technology MI
Jacob A Pearcy

Massachusetts Institute of Technology, Massachusetts Institute of Technology MIT
Andrew Birkel

MIT, Massachusetts Institute of Technology MIT, PSFC, MIT
Vladimir Tikhonchuk

University of Bordeaux, CELIA, University of Bordeaux, CNRS, CEA, 33405 Talence, France
Joe D Katz

Laboratory for Laser Energetics, University of Rochester, Laboratory for Laser Energetics, University of Rochester
Richard Petrasso

Massachusetts Institute of Technology MIT, MIT
Chikang Li

Massachusetts Institute of Technology MIT, MIT