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A Renyi Quantum Null Energy Condition: Proof for Free Field Theories

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arxiv 2007.15025 v2 pith:GJWMCZLQ submitted 2020-07-29 hep-th gr-qcquant-ph

A Renyi Quantum Null Energy Condition: Proof for Free Field Theories

classification hep-th gr-qcquant-ph
keywords renyinullqnecconditionsigmaarbitraryfieldquantum
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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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 $S_{\text{rel}}(\rho||\sigma)$ of an arbitrary state $\rho$ with respect to the vacuum $\sigma$. The relative entropy has a natural one-parameter family generalization, the Sandwiched Renyi divergence $S_n(\rho||\sigma)$, which also measures the distinguishability of two states for arbitrary $n\in[1/2,\infty)$. A Renyi QNEC, a positivity condition on the second null shape derivative of $S_n(\rho||\sigma)$, was conjectured in previous work. In this work, we study the Renyi 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 Renyi QNEC in the case $n>1$ for arbitrary states. We also provide counterexamples to the Renyi QNEC for $n<1$.

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Cited by 2 Pith papers

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