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Thermal One-point Functions and Asymptotic CFT Data: QFT in AdS

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abstract

We investigate the thermal partition and one-point functions of the three-dimensional conformal field theory dual to a massive interacting scalar field in AdS$_4$. Using thermal inversion formulas, we determine the asymptotic behaviour of the spectral density and OPE coefficients involving heavy operators at fixed spin. We first analyse these CFT data for the generalised free field, corresponding to the non-interacting bulk theory. Then we compute the first-order perturbative corrections induced by the cubic and quartic bulk interactions. The thermal observables considered here probe a sector associated with operators of large dimension and, in the bulk description, a regime dominated by states with large particle number. This regime remains comparatively unexplored even in generalised free field theory. Remarkably, the asymptotic formulas obtained from thermal inversion remain quantitatively accurate far from the asymptotic regime, describing CFT data reliably already at intermediate conformal weights. Our results show that this feature survives the inclusion of bulk interactions and provide new analytic control over heavy-state data in conformal field theories.

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hep-th 1

years

2026 1

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UNVERDICTED 1

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Thermal Double-Twist Data in Holography

hep-th · 2026-06-29 · unverdicted · novelty 6.0

A numerical procedure extracts thermal double-twist OPE coefficients in holographic CFTs from black-brane solutions of the Klein-Gordon equation, yielding new spin-resolved data.

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  • Thermal Double-Twist Data in Holography hep-th · 2026-06-29 · unverdicted · none · ref 16 · internal anchor

    A numerical procedure extracts thermal double-twist OPE coefficients in holographic CFTs from black-brane solutions of the Klein-Gordon equation, yielding new spin-resolved data.