Event
Plasma Physics Seminar| Emily Lichko, University of Arizona
Wednesday, December 2, 2020
3:30 p.m.
via ZOOM
Taylor Prendergast
301 405 4951
tprender@umd.edu
https://terpconnect.umd.edu/~swisdak/PPS/plasma_seminar.html
Speaker: Emily Lichko
Speaker's Institution: University of Arizona
Title: "Magnetic pumping model for energizing superthermal particles applied to observations of the Earth's bow shock"
Abstract:
Energetic particle generation is an important component of a variety of astrophysical systems, from seed particle generation in shocks to the heating of the solar wind. It has been shown that magnetic pumping is an efficient mechanism for heating thermal particles, using the largest-scale magnetic fluctuations. Here we show that when magnetic pumping is extended to a spatially-varying magnetic flux tube, magnetic trapping of superthermal particles renders pumping an effective energization method for particles moving faster than the speed of the waves and naturally generates power-law distributions. We validated the theory by spacecraft observations of the strong, compressional magnetic fluctuations near the Earth's bow shock from the Magnetospheric Multiscale mission. Given the ubiquity of magnetic fluctuations in different astrophysical systems, this mechanism has the potential to be transformative to our understanding of how the most energetic particles in the universe are generated.
Lichko, E., Egedal, J. Magnetic pumping model for energizing superthermal particles applied to observations of the Earth's bow shock. Nat Commun 11, 2942 (2020). https://doi.org/10.1038/s41467-020-16660-4
