Manuel Sanchez scite author profile

Abstract:We investigate entanglement entropy in Gauss-Bonnet gravity following a global quench. It is known that in dynamical scenarios the entanglement entropy probe penetrates the apparent horizon. The goal of this work is to study how far behind the horizon can the entanglement probe reach in a Gauss-Bonnet theory. We find that the behavior is quite different depending on the sign of the Gauss-Bonnet coupling λ GB . For λ GB > 0 the behavior of the probes is just as in Einstein gravity; the probes do not reach the singularity but asymptote to a locus behind the apparent horizon. We calculate the minimum radial position r min reached by the probes and show that for λ GB > 0 they explore less of the spacetime behind the horizon than in Einstein gravity. On the other hand, for λ GB < 0 the results are strikingly different; for early times a new family of solutions appears. These new solutions reach arbitrarily close to the singularity. We calculate the entanglement entropy for the two family of solutions with λ GB < 0 and find that the ones that reach the singularity are the ones of less entanglement entropy. Thus, for λ GB < 0 the holographic entanglement entropy probes further behind the horizon than in Einstein gravity. In fact, for early times it can explore all the way to the singularity.

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Mating systems in a natural hybrid of Cephalocereus (Cactaceae) and comparative seed germination

Merino

Sanchez

Meléndez

et al. 2022

Journal of Arid Environments

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Manuel Sanchez

Holographic entanglement entropy in time dependent Gauss-Bonnet gravity

Mating systems in a natural hybrid of Cephalocereus (Cactaceae) and comparative seed germination

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