T T deformation of the Ising model and its ultraviolet completion

Abstract

Pure TT deformations of conformal field theories are generally asymptotically incomplete in the ultra-violet (UV) due to square-root singularities in the ground state energy on a cylinder of circumference R, such that the theory is ill-defined for distances shorter than some critical R*. In this article we show how a theory can be completed if one includes an infinite number of additional irrelevant perturbations. This is fully demonstrated in the case of the Ising model at cIR= 1/2 in the infra-red (IR), where we find two completions with central charges cUV = 3/2 and cUV = 7/10, the latter being the tri-critical Ising model. Both of these UV completions have N=1 supersymmetry which is broken in the renormalization group flow to low energies. We also consider multiple TT deformations of a free massless boson, where we cannot find a UV completion that is consistent with the c-theorem. For negative coupling g, which violates the c-theorem, in both cases we find cUV = -cIR as g -∞. Finally we also study pure TT deformations of the off-critical Ising model.