Dense quantum plasmas out of equilibrium are successfully modeled using quantum kinetic equations, such as the quantum Boltzmann, Landau, or Balescu–Lenard equation. However, these equations do not properly take into… Click to show full abstract
Dense quantum plasmas out of equilibrium are successfully modeled using quantum kinetic equations, such as the quantum Boltzmann, Landau, or Balescu–Lenard equation. However, these equations do not properly take into account correlation effects, which require the use of generalized non‐Markovian kinetic equations. While the latter have been successful for lattice models, applications to continuous systems such as plasmas are severely hampered by aliasing effects. Here we present a strategy for suppressing aliasing and making applications of non‐Markovian quantum kinetic equations to plasmas possible.
Journal Title: Contributions to Plasma Physics
Year Published: 2025
Link to full text (if available)
Share on Social Media: Sign Up to like & get
recommendations!