Relativistic Magnetic Reconnection in the Laboratory

Karl Krushelnick; Anthony Raymond; CF Dong; A McKelvey; C Zulick; N Alexander; A Bhattacharjee; PT Campbell; H Chen; V Chvykov; E Del Rio; P Fitzsimmons; W Fox; BX Hou; A Maksimchuk; C Mileham; J Nees; PM Nilson; C Stoekl; AGR Thomas; MS Wei; V Yanovsky; L Willingale

Relativistic Magnetic Reconnection in the Laboratory

ORAL

Abstract

Magnetic reconnection is a fundamental plasma process involving an exchange of magnetic energy to plasma kinetic energy through changes in the magnetic field topology. Here we present experimental measurements using the OMEGA EP laser at LLE and the HERCULES laser at the University of Michigan as well as numerical modeling which indicate that relativistic magnetic reconnection can be driven by short-pulse, high-intensity lasers that produce a relativistic plasma along with very strong magnetic fields. Evidence of magnetic reconnection was identified by the plasma's X-ray emission patterns, changes to the electron energy spectrum, and by measuring the time over which reconnection occurs.

^*Funded by DOE award no. DE-NA0002727

Nov. 1, 2016, 3:00 PM – Nov. 1, 2016, 3:12 PM

Authors

Karl Krushelnick
- University of Michigan - Ann Arbor
- University of Michigan, Ann Arbor
- Univ of Michigan - Ann Arbor
- U.Michigan
- University of Michigan
Anthony Raymond
- U.Michigan
CF Dong
- PPPL
A McKelvey
- U.Michigan
C Zulick
- U.Michigan
N Alexander
- GA
A Bhattacharjee
- PPPL
PT Campbell
- U.Michigan
H Chen
- LLNL
V Chvykov
- U.Michigan
E Del Rio
- GA
P Fitzsimmons
- GA
W Fox
- PPPL
BX Hou
- U.Michigan
A Maksimchuk
- U.Michigan
C Mileham
- LLE
J Nees
- U.Michigan
PM Nilson
- LLE
C Stoekl
- LLE
AGR Thomas
- U.Michigan
MS Wei
- GA
V Yanovsky
- U.Michigan
L Willingale
- U.Michigan