Tests of restricted Quantum Focusing and a universal CFT bound (2510.13961v1)

Abstract: The restricted quantum focusing conjecture (rQFC) plays a central role in an axiomatic formulation of semiclassical gravity. Since much hinges on its validity, it is imperative to subject the rQFC to rigorous tests in novel settings. Here we do so in two independent directions. First, we prove rQFC in a class of spacetime dimension $d=2$ toy models, JT gravity coupled to a QFT. We also construct explicit counter-examples to the original and stronger Quantum Focusing Conjecture in a regime where matter quantum effects are comparable to the total dilaton value. Second, for $d>2$, we derive a new CFT constraint: the coincident limit of the product of two averaged null energy operators in any CFT cannot be zero. Equivalently, the rQFC imposes an upper bound of $2d-1$ on the scaling dimension of the leading even-spin Regge trajectory, analytically continued in $J$ and evaluated at $J=3$. The bound holds in free and weakly-interacting CFTs, and is saturated by the double-trace trajectories in planar $\mathcal{N}=4$ Super Yang-Mills at strong coupling. We speculate about a strengthened Quantum Null Energy Condition that would imply our results.