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The Average Field Approximation for Almost Bosonix Extended Anyons

Mathematical Physics 2015-09-18 v3 Quantum Gases Analysis of PDEs math.MP Spectral Theory

Abstract

Anyons are 2D or 1D quantum particles with intermediate statistics, interpolating between bosons and fermions. We study the ground state of a large number N of 2D anyons, in a scaling limit where the statistics parameter is proportional to the inverse of N. This means that the statistics is seen as a "perturbation from the bosonic end." We model this situation in the magnetic gauge picture by bosons interacting through long-range magnetic potentials. We assume that these effective statistical gauge potentials are generated by magnetic charges carried by each particle, smeared over discs of radius R (extended anyons). Our method allows to take R to 0 not too fast at the same time as N to infinity. In this limit we rigorously justify the so-called "average field approximation": the particles behave like independent, identically distributed bosons interacting via a self-consistent magnetic field.

Keywords

Cite

@article{arxiv.1505.05982,
  title  = {The Average Field Approximation for Almost Bosonix Extended Anyons},
  author = {Douglas Lundholm and Nicolas Rougerie},
  journal= {arXiv preprint arXiv:1505.05982},
  year   = {2015}
}
R2 v1 2026-06-22T09:39:19.044Z