The Two Dimensional Lorentz Gas in the Kinetic Limit: Theoretical and Numerical Results
Paper in proceeding, 2024
The Lorentz gas is a model for the motion of electrons in a metal, where the motion is dominated by collisions of the electrons with immobile atomic nuclei, the scatterers. The motion depends on the distribution of scatterers, and we focus here on modifications of periodic scatterer distributions in two dimensions, and in the low density, or Boltzmann Grad, limit. Some theoretical results are complemented with numerical illustrations including modified periodic scatterer distributions, and scatterer distributions given by a quasi-crystal and by the zero set of a Gaussian analytic function.
Boltzmann-Grad limit
Lorentz gas
Quasi-crystal
Gaussian analytic function
Boltzmann equation
Author
Bernt Wennberg
Chalmers, Mathematical Sciences
Springer Proceedings in Mathematics and Statistics
21941009 (ISSN) 21941017 (eISSN)
Vol. 465 379-4039783031651946 (ISBN)
10th International Conference on Particle Systems and Partial Differential Equations, PSPDE 2022
Braga, Portugal,
Braga, Portugal,
Subject Categories
Mathematics
DOI
10.1007/978-3-031-65195-3_17