English

Constructing holographic spacetimes using entanglement renormalization

High Energy Physics - Theory 2012-09-18 v1 Strongly Correlated Electrons Quantum Physics

Abstract

We elaborate on our earlier proposal connecting entanglement renormalization and holographic duality in which we argued that a tensor network can be reinterpreted as a kind of skeleton for an emergent holographic space. Here we address the question of the large NN limit where on the holographic side the gravity theory becomes classical and a non-fluctuating smooth spacetime description emerges. We show how a number of features of holographic duality in the large NN limit emerge naturally from entanglement renormalization, including a classical spacetime generated by entanglement, a sparse spectrum of operator dimensions, and phase transitions in mutual information. We also address questions related to bulk locality below the AdS radius, holographic duals of weakly coupled large NN theories, Fermi surfaces in holography, and the holographic interpretation of branching MERA. Some of our considerations are inspired by the idea of quantum expanders which are generalized quantum transformations that add a definite amount of entropy to most states. Since we identify entanglement with geometry, we thus argue that classical spacetime may be built from quantum expanders (or something like them).

Keywords

Cite

@article{arxiv.1209.3304,
  title  = {Constructing holographic spacetimes using entanglement renormalization},
  author = {Brian Swingle},
  journal= {arXiv preprint arXiv:1209.3304},
  year   = {2012}
}
R2 v1 2026-06-21T22:05:19.996Z