The critical behaviour of Ising spins on 2D Regge lattices
Abstract
We performed a high statistics simulation of Ising spins coupled to 2D quantum gravity on toroidal geometries. The tori were triangulated using the Regge calculus approach and contained up to 5122 vertices. We used a constant area ensemble with an added R2 interaction term, employing the dl/l measure. We find clear evidence that the critical exponents of the Ising phase transition are consistent with the static critical exponents and do not depend on the coupling strength of the R2 interaction term. We definitively can exclude for this type of model a behaviour as predicted by Boulatov and Kazakov [Phys. Lett. B186, 379 (1987)] for Ising spins coupled to dynamically triangulated surfaces.
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