Fermions in the Lowest Landau Level: Bosonization, $W_{\infty}$ Algebra,
  Droplets, Chiral Boson

Avan; Awada; B. Sakita; Brézin; Brézin; Das; Das; Dimitra Karabali; Floreanini; Fröhlich; Gerasimov; Ginsparg; Girvin; Girvin; Girvin; Gross; Hoppe; Hoppe; Jevicki; Karabali; Kittel; Parisi; Polchinski; Polchinski; Pope; Satoshi Iso; Sonnenschein; Stone; Taubes; Wen

research

Fermions in the Lowest Landau Level: Bosonization, $W_{\infty}$ Algebra, Droplets, Chiral Boson

Authors: Avan
Awada
B. Sakita
Brézin
Brézin
Das
Das
Dimitra Karabali
Floreanini
Fröhlich
Gerasimov
Ginsparg
Girvin
Girvin
Girvin
Gross
Hoppe
Hoppe
Jevicki
Karabali
Kittel
Parisi
Polchinski
Polchinski
Pope
Satoshi Iso
Sonnenschein
Stone
Taubes
Wen
Publication date: 1 September 1992
Publisher: 'Elsevier BV'
Doi

Abstract

We present field theoretical descriptions of massless (2+1) dimensional nonrelativistic fermions in an external magnetic field, in terms of a fermionic and bosonic second quantized language. An infinite dimensional algebra,

W_{\infty}

, appears as the algebra of unitary transformations which preserve the lowest Landau level condition and the particle number. In the droplet approximation it reduces to the algebra of area-preserving diffeomorphisms, which is responsible for the existence of a universal chiral boson Lagrangian independent of the electrostatic potential. We argue that the bosonic droplet approximation is the strong magnetic field limit of the fermionic theory. The relation to the

c=1

string model is discussed.Comment: 16 page

Similar works

Full text

Available Versions

Crossref

Last time updated on 02/01/2020