Finite Temperature Properties of Quantum Antiferromagnets in a Uniform
  Magnetic Field in One and Two Dimensions

A. Lenard; A. Meyer; A.B. Harris; A.M. Tsvelik; A.R. Its; A.R. Its; A.V. Chubukov; A.V. Chubukov; A.V. Chubukov; A.V. Chubukov; A.V. Chubukov; B.M. McCoy; C. Bervillier; C. Zeng; D. Stauffer; D.L. Huber; D.S. Fisher; E. Sorenson; E.A. Robinson; E.H. Lieb; E.H. Lieb; F.D.M. Haldane; F.D.M. Haldane; H.G. Vaidya; H.J. Schulz; I. Affleck; I. Affleck; J. von Delft; J.B. Marston; J.L. Cardy; J.N. Reimers; J.P. Renard; J.P. Renard; J.T. Chalker; K. Huang; K. Katsumata; L.P. Legnault; M. C. Cha; M. Chiba; M. Date; M. Hagiwara; M. Jimbo; M. Steiner; M.P.A. Fisher; N. Read; P. Chandra; P. Mitra; P.C. Hohenberg; R. Shankar; R. Shankar; R.R.P. Singh; S. Chakravarty; S. Sachdev; S. Sachdev; S. Sachdev; Subir Sachdev; T. Senthil; T.D. Lee; V.E. Korepin; V.N. Popov; W. Lu; W.J.L. Buyers

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Finite Temperature Properties of Quantum Antiferromagnets in a Uniform Magnetic Field in One and Two Dimensions

Abstract

Consider a

d

-dimensional antiferromagnet with a quantum disordered ground state and a gap to bosonic excitations with non-zero spin. In a finite external magnetic field, this antiferromagnet will undergo a phase transition to a ground state with non-zero magnetization, describable as the condensation of a dilute gas of bosons. The finite temperature properties of the Bose gas in the vicinity of this transition are argued to obey a hypothesis of ZERO SCALE-FACTOR UNIVERSALITY for

d < 2

, with logarithmic violations in

d=2

. Scaling properties of various experimental observables are computed in an expansion in

\epsilon=2-d

, and exactly in

d=1

.Comment: 27 pages, REVTEX 3.0, 8 Postscript figures appended, YCTP-xyz

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Last time updated on 02/01/2020