A New Matrix Model for Noncommutative Field Theory

Alexandrov; Ambjørn; Ambjørn; Ambjørn; Bars; Becchi; Bietenholz; Boca; Douglas; Elliott; Fedele Lizzi; Giovanni Landi; Gopakumar; Gopakumar; Grosse; Gubser; Kajiura; Klebanov; Konechny; Krajewski; Landi; Langmann; Lizzi; Mandal; Martinec; Martinec; McGreevy; McGreevy; Minwalla; Richard J. Szabo; Rieffel; Sahraoui; Szabo

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A New Matrix Model for Noncommutative Field Theory

Authors: Alexandrov
Ambjørn
Ambjørn
Ambjørn
Bars
Becchi
Bietenholz
Boca
Douglas
Elliott
Fedele Lizzi
Giovanni Landi
Gopakumar
Gopakumar
Grosse
Gubser
Kajiura
Klebanov
Konechny
Krajewski
Landi
Langmann
Lizzi
Mandal
Martinec
Martinec
McGreevy
McGreevy
Minwalla
Richard J. Szabo
Rieffel
Sahraoui
Szabo
Publication date: 2 September 2003
Publisher: 'Elsevier BV'
Doi

Abstract

We describe a new regularization of quantum field theory on the noncommutative torus by means of one-dimensional matrix models. The construction is based on the Elliott-Evans inductive limit decomposition of the noncommutative torus algebra. The matrix trajectories are obtained via the expansion of fields in a basis of new noncommutative solitons described by projections and partial isometries. The matrix quantum mechanics are compared with the usual zero-dimensional matrix model regularizations and some applications are sketched.Comment: 14 pages, 2 figure