| Literature DB >> 32257093 |
Peter V Heuer1, Martin S Weidl1, Robert S Dorst1, Derek B Schaeffer1, Shreekrishna K P Tripathi1, Stephen Vincena1, Carmen G Constantin1, Christoph Niemann1, Lynn B Wilson2, Dan Winske3.
Abstract
The Right-Hand Resonant Instability (RHI) is one of several electromagnetic ion/ion beam instabilities responsible for the formation of parallel magnetized collisionless shocks and the generation of ultra-low frequency (ULF) waves in their foreshocks. This instability has been observed for the first time under foreshock-relevant conditions in the laboratory through the repeatable interaction of a preformed magnetized background plasma and a super-Alfvénic laser-produced plasma. This platform has enabled unprecedented volumetric measurements of waves generated by the RHI, revealing filamentary current structures in the transverse plane. These measurements are made in the plasma rest frame with both high spatial and temporal resolution, providing a perspective that is complementary to spacecraft observations. Direct comparison of data from both the experiment and the Wind spacecraft to 2D hybrid simulations demonstrates that the waves produced are analogous to the ULF waves observed upstream of the terrestrial bow shock.Entities:
Keywords: Laboratory Astrophysics; Planetary bow shocks; Plasma astrophysics; Shocks; Space plasmas
Year: 2020 PMID: 32257093 PMCID: PMC7119471 DOI: 10.3847/2041-8213/ab75f4
Source DB: PubMed Journal: Astrophys J Lett ISSN: 2041-8205 Impact factor: 7.413