English

Non Perturbative Renormalization Group and Bose-Einstein Condensation

Statistical Mechanics 2008-01-03 v1

Abstract

These lectures are centered around a specific problem, the effect of weak repulsive interactions on the transition temperature TcT_c of a Bose gas. This problem provides indeed a beautiful illustration of many of the techniques which have been discussed at this school on effective theories and renormalization group. Effective theories are used first in order to obtain a simple hamiltonian describing the atomic interactions: because the typical atomic interaction potentials are short range, and the systems that we consider are dilute, these potentials can be replaced by a contact interaction whose strength is determined by the s-wave scattering length. Effective theories are used next in order to obtain a simple formula for the shift in TcT_c: one exploits there the fact that near TcT_c the physics is dominated by low momentum modes whose dynamics is most economically described in terms of classical fields; the ingredients needed to calculate the shift of TcT_c can be obtained from this classical field theory. Finally the renormalization group is used both to obtain a qualitative understanding, and also as a non perturbative tool to evaluate quantitatively the shift in TcT_c.

Keywords

Cite

@article{arxiv.0801.0009,
  title  = {Non Perturbative Renormalization Group and Bose-Einstein Condensation},
  author = {Jean-Paul Blaizot},
  journal= {arXiv preprint arXiv:0801.0009},
  year   = {2008}
}

Comments

Lectures given at the 2006 ECT* School "Renormalization Group and Effective Field Theory Approaches to Many-Body Systems", Trento, Italy. Late submission to arXiv

R2 v1 2026-06-21T09:58:10.521Z