English

Electron fractionalization for two-dimensional Dirac fermions

High Energy Physics - Theory 2008-11-07 v1 Strongly Correlated Electrons Atomic Physics Quantum Physics

Abstract

Fermion-number fractionalization without breaking of time-reversal symmetry was recently demonstrated for a field theory in (2+1)(2+1)-dimensional space and time that describes the couplings between massive Dirac fermions, a complex-valued Higgs field carrying an axial gauge charge of 2, and a U(1) axial gauge field. Charge fractionalization occurs whenever the Higgs field either supports vortices by itself, or when these vortices are accompanied by half-vortices in the axial gauge field. The fractional charge is computed by three different techniques. A formula for the fractional charge is given as a function of a parameter in the Dirac Hamiltonian that breaks the spectral energy-reflection symmetry. In the presence of a charge ±1\pm1 vortex in the Higgs field only, the fractional charge varies continuously and thus can take irrational values. The simultaneous presence of a half-vortex in the axial gauge field and a charge ±1\pm1 vortex in the Higgs field re-rationalizes the fractional charge to the value 1/2.

Keywords

Cite

@article{arxiv.0712.2439,
  title  = {Electron fractionalization for two-dimensional Dirac fermions},
  author = {Claudio Chamon and Chang-Yu Hou and Roman Jackiw and Christopher Mudry and So-Young Pi and Gordon Semenoff},
  journal= {arXiv preprint arXiv:0712.2439},
  year   = {2008}
}

Comments

18 pages, 2 figures

R2 v1 2026-06-21T09:54:17.367Z