Critical Two-Point Function of the 4-Dimensional Weakly Self-Avoiding Walk |
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Authors: | Roland Bauerschmidt David C. Brydges Gordon Slade |
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Affiliation: | 1.School of Mathematics,Institute for Advanced Study,Princeton,USA;2.Department of Mathematics,University of British Columbia,Vancouver,Canada |
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Abstract: | We prove ({|x|^{-2}}) decay of the critical two-point function for the continuous-time weakly self-avoiding walk on ({mathbb{Z}^{d}}), in the upper critical dimension d = 4. This is a statement that the critical exponent ({eta}) exists and is equal to zero. Results of this nature have been proved previously for dimensions ({d ge 5}) using the lace expansion, but the lace expansion does not apply when d = 4. The proof is based on a rigorous renormalisation group analysis of an exact representation of the continuous-time weakly self-avoiding walk as a supersymmetric field theory. Much of the analysis applies more widely and has been carried out in a previous paper, where an asymptotic formula for the susceptibility is obtained. Here, we show how observables can be incorporated into the analysis to obtain a pointwise asymptotic formula for the critical two-point function. This involves perturbative calculations similar to those familiar in the physics literature, but with error terms controlled rigorously. |
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