Interacting Fields at Spatial Infinity
Abstract
We study the properties of massive fields extrapolated to the blowup of spatial infinity (i0), extending the program initiated in arXiv:2207.06406. In the free theory, we find an explicit representation of boundary two-point functions and boundary to bulk two-point functions, and also present an HKLL-type reconstruction formula for local bulk operators in terms of smeared boundary operators. We study interacting Wightman correlators and find that, generically, interacting massive fields decay slower than free fields as one approaches i0. We propose that meaningful correlators at i0 can be obtained through an LSZ-like prescription that isolates the on-shell part of bulk Wightman correlators before extrapolating them to i0. We show that a natural basis for operators at i0, defined via this prescription, is given by the average of "in" and "out" operators defined at i- and i+ respectively. Therefore, correlators at i0 and cross correlators between i0, i- and i+ can be represented within the class of asymptotic observables studied by Caron-Huot et al. in arXiv:2308.02125. We present several sample calculations.
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