Interacting CFTs for all couplings: Thermal versus Entanglement Entropy at Large N

Abstract

In this paper, I calculate the large N limit of marginal O(N) models with non-polynomial potentials in arbitrary odd dimensions d. This results in a new class of interacting pure conformal field theories (CFTs) in d=3+4n for any n ∈ Z+. Similarly, in d=3+4n I calculate the thermal entropy for all couplings on R2+4n × S1 for n=0,1,2,3. In 2+1 dimensions I find the strong-to-weak coupling ratio of the thermal entropy to be 4/5, matching recent results, and further extend this analysis to higher odd dimensions. Next, I calculated the vacuum entanglement entropy sdEE on Sd-2 for all couplings in arbitrary odd d in the large N limit. I find the vacuum entanglement entropy on Sd-2 to be not only solvable but also constant for all couplings λ. Thus, in the large N limit, the vacuum entanglement entropy on Sd-2 for odd d is constant for all λ, in contrast to the thermal entropy which is shown to also be monotonically decreasing with λ in d=3+4n.

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