Deformed BTZ Radiance and Single Trace TT Holography

Abstract

We generalize the "holar wind" mechanism proposed in arXiv:2303.00234 to the case of rotating λ-deformed BTZ black holes. These backgrounds, which interpolate between AdS3 in the infrared and a linear dilaton spacetime in the ultraviolet, are realized as an exact SL(2,R)k× U(1)U(1) gauged-WZW worldsheet theory. The long string sector of the theory provides a holographic dual to single-trace TT deformed symmetric product Mp/Sp CFT2 with a seed M carrying a central charge c=6k. By analyzing the geodesics and tunneling rates of probe particles and winding long strings, we show that the emission probabilities for both positive and negative deformation couplings are universally governed by the change in the Bekenstein-Hawking entropy, ΔSBH. A central result of our analysis is that the consistency of long string emission within the grand canonical ensemble dictates a unique value for the background B-field at the origin. We demonstrate that this thermodynamically fixed value matches precisely the prediction required for the string excitation spectrum to agree with the Zw twisted sector of a single-trace TT deformed symmetric product orbifold. Finally, we sketch the extension of these results to a broader class of black holes whose long string sector is dual to single-trace TT + JT + TJ deformed theories.