Relaxation of strongly coupled binary ionic mixtures in the coupled mode regime
Abstract
Understanding ion transport in plasma mixtures is essential for optimizing the energy balance in high-energy-density systems. In this paper, we focus on one transport property, ion–ion temperature relaxation in a strongly coupled plasma mixture. We review the physics of temperature relaxation and derive a general temperature relaxation equation that includes dynamical correlations. We demonstrate the fidelity of three popular kinetic models that include only static correlations by comparing them to data from molecular dynamics simulations. We verify the simulations by comparing with laboratory data from ultracold neutral plasmas. By comparing our simulations with high fidelity kinetic models, we reveal the importance of dynamical correlations in collisional relaxation processes. These correlations become increasingly significant as the ion mass ratio in a binary mixture approaches unity.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Jun 01, 2021
- Source ID
- 10.1063/5.0048030
Entities
People
- Luciano Silvestri
- Michael S. Murillo
- R. Tucker Sprenkle
- Scott D Bergeson
Organizations
- Air Force Office of Scientific Research
- Brigham Young University
- Michigan State University
- National Science Foundation