Author:
Deddo Evan,Pando Zayas Leopoldo A.,Uhlemann Christoph F.
Abstract
Abstract
We quantitatively address the following question: for a QFT which is partially compactified, so as to realize an RG flow from a D-dimensional CFT in the UV to a d-dimensional CFT in the IR, how does the entanglement entropy of a small spherical region probing the UV physics evolve as the size of the region grows to increasingly probe IR physics? This entails a generalization of spherical regions to setups without full Lorentz symmetry, and we study the associated entanglement entropies holographically. We find a tight interplay between the topology and geometry of the compact space and the evolution of the entanglement entropy, with universal transitions from ‘cap’ through ‘bridge’ and ‘corner’ phases, whose features reflect the details of the compact space. As concrete examples we discuss twisted compactifications of 4d $$ \mathcal{N} $$
N
= 4 SYM on T2, S2 and hyperbolic Riemann surfaces.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
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