Target space entanglement in Matrix Models
Abstract
We study target space entanglement in gauged multi-matrix models as models of entanglement between groups of D-branes separated by a planar entangling surface, paying close attention to the implementation of gauge invariance. We open with a review of target space entanglement between identical particles, which shares some important features (specifically a gauged permutation symmetry) with our main problem. For our matrix models, we implement a gauge fixing well-adapted to the entangling surface. In this gauge, we map the matrix model problem to that of entanglement of a gauge theory on a complete or all-to-all lattice. Matrix elements corresponding to open strings stretching across the entangling surface in the target space lead to interesting contributions to the entanglement entropy.
Keywords
Cite
@article{arxiv.2012.15683,
title = {Target space entanglement in Matrix Models},
author = {Harsha R. Hampapura and Jonathan Harper and Albion Lawrence},
journal= {arXiv preprint arXiv:2012.15683},
year = {2021}
}
Comments
34 pages, 3 figures