Calculating the Prepotential by Localization on the Moduli Space of
  Instantons

A. Schwarz; A.J. Niemi; D. Bellisai; F. Fucito; H. Nakajima; J. Wess; K. Furuuchi; K. Furuuchi; K. Furuuchi; K. Ito; K.-Y. Kim; M. Hamanaka; N. Berline; N. Dorey; N. Dorey; N. Dorey; N. Dorey; N.A. Nekrasov; N.J. Hitchin; P.C. Argyres; R. Flume; R. Flume; T.J. Hollowood; Timothy J Hollowood

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Calculating the Prepotential by Localization on the Moduli Space of Instantons

Authors: A. Schwarz
A.J. Niemi
D. Bellisai
F. Fucito
H. Nakajima
J. Wess
K. Furuuchi
K. Furuuchi
K. Furuuchi
K. Ito
K.-Y. Kim
M. Hamanaka
N. Berline
N. Dorey
N. Dorey
N. Dorey
N. Dorey
N.A. Nekrasov
N.J. Hitchin
P.C. Argyres
R. Flume
R. Flume
T.J. Hollowood
Timothy J Hollowood
Publication date: 14 January 2002
Publisher: 'IOP Publishing'
Doi

Abstract

We describe a new technique for calculating instanton effects in supersymmetric gauge theories applicable on the Higgs or Coulomb branches. In these situations the instantons are constrained and a potential is generated on the instanton moduli space. Due to existence of a nilpotent fermionic symmetry the resulting integral over the instanton moduli space localizes on the critical points of the potential. Using this technology we calculate the one- and two-instanton contributions to the prepotential of SU(N) gauge theory with N=2 supersymmetry and show how the localization approach yields the prediction extracted from the Seiberg-Witten curve. The technique appears to extend to arbitrary instanton number in a tractable way.Comment: 24 pages, JHEP.cls, more references and extra discussion on N_F=2N cas

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