John Wheater

RANDOM SURFACES AND LATTICE QUANTUM-GRAVITY

NUCL PHYS B (1994) 15-28

RANDOM SURFACES - FROM POLYMER MEMBRANES TO STRINGS

JOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL 27:10 (1994) 3323-3353

On the Transition from Crystalline to Dynamically Triangulated Surfaces

ArXiv hep-lat/9308005 (1993)

Authors:

Neil Ferguson, JF Wheater

Abstract:

We consider methods of interpolating between the crystalline and dynamically triangulated random surface models. We argue that actions based on the deviation from six of the coordination number at a site are inadequate and propose an alternative based on Alexander moves. Two simplified models, one of which has a phase transition and the other of which does not, are discussed.

On the Transition from Crystalline to Dynamically Triangulated Surfaces

(1993)

Authors:

Neil Ferguson, JF Wheater

On the Crumpling Transition in Crystalline Random Surfaces

ArXiv hep-lat/9301007 (1993)

Authors:

JF Wheater, PW Stephenson

Abstract:

We investigate the crumpling transition on crystalline random surfaces with extrinsic curvature on lattices up to $64^2$. Our data are consistent with a second order phase transition and we find correlation length critical exponent $\nu=0.89\pm 0.07$. The specific heat exponent, $\alpha=0.2\pm 0.15$, is in much better agreement with hyperscaling than hitherto. The long distance behaviour of tangent-tangent correlation functions confirms that the so-called Hausdorff dimension is $d_H=\infty$ throughout the crumpled phase.