English

The Maxwell-Pauli Equations

Mathematical Physics 2020-05-15 v1 Analysis of PDEs math.MP

Abstract

We study the quantum mechanical many-body problem of N1N \geq 1 non-relativistic electrons with spin interacting with their self-generated classical electromagnetic field and K0K \geq 0 static nuclei. We model the dynamics of the electrons and their self-generated electromagnetic field using the so-called many-body Maxwell-Pauli equations. The main result of this thesis is to construct time global, finite-energy, weak solutions to the many-body Maxwell-Pauli equations under the assumption that the fine structure constant α\alpha and the nuclear charges are not too large. The assumptions on the size of α\alpha and the nuclear charges ensure that we have energetic stability for this system, i.e., the absolute ground state energy exists. The work in this thesis serves as an initial step towards understanding the connection between the energetic stability of matter in quantum mechanics and the well-posedness of the corresponding dynamical equations.

Keywords

Cite

@article{arxiv.2005.06556,
  title  = {The Maxwell-Pauli Equations},
  author = {Thomas Forrest Kieffer},
  journal= {arXiv preprint arXiv:2005.06556},
  year   = {2020}
}

Comments

95 pages. PhD thesis, Georgia Institute of Technology, May 2020. Includes results from arXiv:1904.06748

R2 v1 2026-06-23T15:31:38.682Z