On a Finite Range Decomposition of the Resolvent of a Fractional Power of the Laplacian

Abstract

We prove the existence as well as regularity of a finite range decomposition for the resolvent Gα (x-y,m2) = ((-)α 2 + m2)-1 (x-y) , for 0<α<2 and all real m, in the lattice Zd as well as in the continuum Rd for dimension d 2. This resolvent occurs as the covariance of the Gaussian measure underlying weakly self- avoiding walks with long range jumps (stable L\'evy walks) as well as continuous spin ferromagnets with long range interactions in the long wavelength or field theoretic approximation. The finite range decomposition should be useful for the rigorous analysis of both critical and off-critical renormalisation group trajectories. The decomposition for the special case m=0 was known and used earlier in the renormalisation group analysis of critical trajectories for the above models below the critical dimension dc =2α. This revised version makes some changes, adds new material, and also corrects some errors in the previous version. It refers to the author's published article with the same title in J Stat Phys (2016) 163: 1235-1246, as well as to an erratum to be published in J Stat Phys.