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Rényi entropies of the massless Dirac field on the torus

We compute the Rényi entropies of the massless Dirac field on the Euclidean torus (the Lorentzian cylinder at non-zero temperature) for arbitrary spatial regions. We do it by the resolvent method, i.e., we express the entropies in terms of the resolvent of a certain operator and then use the explicit form of that resolvent, which was obtained recently. Our results are different in appearance from those already existing in the literature (obtained via the replica trick), but they agree perfectly, as we show numerically for non-integer order and analytically for integer order. We also compute the Rényi mutual information, and find that, for appropriate choices of the parameters, it is non-positive and non-monotonic. This behavior is expected, but it cannot be seen with the simplest known Rényi entropies in quantum field theory because they are proportional to the entanglement entropy.

preprint2021arXivOpen access
David BlancoTomás Ferreira ChaseJuan LaurnagarayGuillem Pérez-Nadal
math-phmath.MPhep-thquant-ph
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David BlancoTomás Ferreira ChaseJuan LaurnagarayGuillem Pérez-Nadal

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