Magnetic signatures of radiation-driven double ablation fronts

Paul T. Campbell; Christopher A. Walsh; Aidan Crilly; Jeremy P. Chittenden; Philip M. Nilson; Gennady Fiksel; Brandon K. Russell; Alexander G. R. Thomas; Karl Krushelnick; Louise Willingale

Magnetic signatures of radiation-driven double ablation fronts

ORAL

Abstract

In experiments performed with the OMEGA EP laser system, magnetic field generation in double ablation fronts was observed. Proton radiography measured the strength, spatial profile, and temporal dynamics of self-generated magnetic fields as the target material was varied between plastic (CH), aluminum, copper, and gold. Two distinct regions of magnetic field are generated in mid-Z targets -- one produced by gradients from electron thermal transport and the second from radiation-driven gradients. Extended magnetohydrodynamic simulations including radiation transport reproduced key aspects of the experiment, including field generation and double ablation front formation.

^*This material is based upon work supported by the Department of Energy / NNSA under Award Numbers DE-NA0003606 and DE-NA0003764. PTC is supported by the U.S. Department of Energy Fusion Energy Sciences Postdoctoral Research Program administered by the Oak Ridge Institute for Science and Education (ORISE) for the DOE. ORISE is managed by Oak Ridge Associated Universities (ORAU) under DOE contract number DE-SC0014664.

Nov. 9, 2020, 10:06 AM – Nov. 9, 2020, 10:18 AM

Authors

Paul T. Campbell
- University of Michigan
- Univ of Michigan - Ann Arbor
Christopher A. Walsh
- Lawrence Livermore National Laboratory
Aidan Crilly
- Imperial College London
Jeremy P. Chittenden
- Imperial College London
Philip M. Nilson
- University of Rochester
Gennady Fiksel
- University of Michigan
Brandon K. Russell
- University of Michigan
Alexander G. R. Thomas
- University of Michigan
Karl Krushelnick
- University of Michigan
Louise Willingale
- University of Michigan