A Rényi quantum null energy condition: proof for free field theories

Mudassir Moosa; Pratik Rath; Vincent Paul Su

doi:10.1007/JHEP01(2021)064

Journal of High Energy Physics (Jan 2021)

A Rényi quantum null energy condition: proof for free field theories

Mudassir Moosa,
Pratik Rath,
Vincent Paul Su

Affiliations

Mudassir Moosa: Department of Physics, Cornell University
Pratik Rath: Center for Theoretical Physics and Department of Physics, University of California
Vincent Paul Su: Center for Theoretical Physics and Department of Physics, University of California

DOI: https://doi.org/10.1007/JHEP01(2021)064
Journal volume & issue: Vol. 2021, no. 1
pp. 1 – 49

Abstract

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Abstract The Quantum Null Energy Condition (QNEC) is a lower bound on the stress-energy tensor in quantum field theory that has been proved quite generally. It can equivalently be phrased as a positivity condition on the second null shape derivative of the relative entropy S rel(ρ||σ) of an arbitrary state ρ with respect to the vacuum σ. The relative entropy has a natural one-parameter family generalization, the Sandwiched Rényi divergence S n (ρ||σ), which also measures the distinguishability of two states for arbitrary n ∈ [1/2, ∞). A Rényi QNEC, a positivity condition on the second null shape derivative of S n (ρ||σ), was conjectured in previous work. In this work, we study the Rényi QNEC for free and superrenormalizable field theories in spacetime dimension d > 2 using the technique of null quantization. In the above setting, we prove the Rényi QNEC in the case n > 1 for arbitrary states. We also provide counterexamples to the Rényi QNEC for n < 1.

Published in Journal of High Energy Physics

ISSN: 1029-8479 (Online)
Publisher: SpringerOpen
Country of publisher: Germany
LCC subjects: Science: Physics: Nuclear and particle physics. Atomic energy. Radioactivity
Website: http://www.springer.com/physics/particle+and+nuclear+physics/journal/13130

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