On the entanglement entropy of quantum fields in causal sets

In order to understand the detailed mechanism by which a fundamental discreteness can provide a finite entanglement entropy, we consider the entanglement entropy of two classes of free massless scalar fields on causal sets that are well approximated by causal diamonds in Minkowski spacetime of dimen...

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Bibliographic Details
Published in:Classical and quantum gravity 2018-04, Vol.35 (7), p.74002
Main Authors: Belenchia, Alessio, Benincasa, Dionigi M T, Letizia, Marco, Liberati, Stefano
Format: Article
Language:English
Subjects:
causal sets
discrete spacetime
entanglement entropy
General Relativity and Quantum Cosmology
High Energy Physics - Theory
Physics
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Summary:In order to understand the detailed mechanism by which a fundamental discreteness can provide a finite entanglement entropy, we consider the entanglement entropy of two classes of free massless scalar fields on causal sets that are well approximated by causal diamonds in Minkowski spacetime of dimensions 2, 3 and 4. The first class is defined from discretised versions of the continuum retarded Green functions, while the second uses the causal set's retarded nonlocal d'Alembertians parametrised by a length scale lk. In both cases we provide numerical evidence that the area law is recovered when the double-cutoff prescription proposed in Sorkin and Yazdi (2016 Entanglement entropy in causal set theory (arXiv:1611.10281)) is imposed. We discuss in detail the need for this double cutoff by studying the effect of two cutoffs on the quantum field and, in particular, on the entanglement entropy, in isolation. In so doing, we get a novel interpretation for why these two cutoff are necessary, and the different roles they play in making the entanglement entropy on causal sets finite.
ISSN:0264-9381
1361-6382
DOI:10.1088/1361-6382/aaae27