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Two No-Go Theorems on Superconductivity

Mathematical Physics 2016-12-06 v2 Strongly Correlated Electrons Superconductivity High Energy Physics - Lattice High Energy Physics - Theory math.MP

Abstract

We study lattice superconductors such as attractive Hubbard models. As is well known, Bloch's theorem asserts absence of persistent current in ground states and equilibrium states for general fermion systems. While the statement of the theorem is true, we can show that the theorem cannot exclude possibility of a surface persistent current. Such a current can be stabilized by boundary magnetic fields which do not penetrate into the bulk region of a superconductor, provided emergence of massive photons, i.e., Meissner effect. Therefore, we can expect that a surface persistent current is realized for a ground/equilibrium state in the sense of stability against local perturbations. We also apply Elitzur's theorem to superconductors at finite temperatures. As a result, we prove absence of symmetry breaking of the global U(1)U(1) phase of electrons for almost all gauge fields. These observations suggest that the nature of superconductivity is the emergence of massive photons rather than the symmetry breaking of the U(1)U(1) phase of electrons.

Keywords

Cite

@article{arxiv.1605.06586,
  title  = {Two No-Go Theorems on Superconductivity},
  author = {Yasuhiro Tada and Tohru Koma},
  journal= {arXiv preprint arXiv:1605.06586},
  year   = {2016}
}

Comments

18 pages, v2: minor corrections

R2 v1 2026-06-22T14:06:11.681Z