Field-induced Ordering in Critical Antiferromagnets
Abstract
Transfer-matrix scaling methods have been used to study critical properties of field-induced phase transitions of two distinct two-dimensional antiferromagnets with discrete-symmetry order parameters: triangular-lattice Ising systems (TIAF) and the square-lattice three-state Potts model (SPAF-3). Our main findings are summarised as follows. For TIAF, we have shown that the critical line leaves the zero-temperature, zero -field fixed point at a finite angle. Our best estimate of the slope at the origin is (dTc/dH)T=H=0 = 4.74 0.15. For SPAF-3 we provided evidence that the zero-field correlation length diverges as (T 0, H=0) (a/Tx), with x=1.08 0.13, through analysis of the critical curve at H ≠ 0 plus crossover arguments. For SPAF-3 we have also ascertained that the conformal anomaly and decay-of-correlations exponent behave as: (a) H=0: c=1, η=1/3; (b) H ≠ 0: c=1/2, η=1/4.
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