The Phase Structure of an SU(N) Gauge Theory with N_f Flavors

Anuradha Ratnaweera; B. Holdom; B. Holdom; D. Chen; D. Gross; D. Nash; D. Nash; D. R. T. Jones; E. Dagotto; E. Dagotto; F. Brown; F. Wilczek; F. Wilczek; H. Georgi; J. A. M. Vermaseren; J. B. Kogut; J. M. Cornwall; J. Terning; John Terning; K. Intriligator; K. Intriligator; K. Lane; K. Yamawaki; L. C. R. Wijewardhana; M. Golden; M. Peskin; P. I. Fomin; P. I. Fomin; R. Fukuda; R. M. Corless; R. Pisarski; S. Chivukula; S. Chivukula; S. Coleman; S. Coleman; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Appelquist; T. Banks; T. D. Lee; T. Kinoshita; T. Maskawa; T. Maskawa; Thomas Appelquist; V. A. Miransky; V. A. Miransky; V. A. Miransky; V. A. Miransky; V. Miransky; W. Bardeen; W. E. Caswell; Y. Iwasaki; Y. Nambu

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The Phase Structure of an SU(N) Gauge Theory with N_f Flavors

Abstract

We investigate the chiral phase transition in SU(N) gauge theories as the number of quark flavors,

N_f

, is varied. We argue that the transition takes place at a large enough value of

N_f

so that it is governed by the infrared fixed point of the

\beta

function. We study the nature of the phase transition analytically and numerically, and discuss the spectrum of the theory as the critical value of

N_f

is approached in both the symmetric and broken phases. Since the transition is governed by a conformal fixed point, there are no light excitations on the symmetric side. We extend previous work to include higher order effects by developing a renormalization group estimate of the critical coupling.Comment: 34 pages, 1 figure. More references adde

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Last time updated on 03/01/2020