Bit Threads and the Membrane Theory of Entanglement Dynamics (1910.12909v2)

Abstract: Recently, an effective {\it membrane theory} was proposed that describes the hydrodynamic'' regime of the entanglement dynamics for general chaotic systems. Motivated by the new {\it bit threads} formulation of holographic entanglement entropy, given in terms of a convex optimization problem based on flow maximization, or equivalently tight packing of bit threads, we reformulate the membrane theory as a max flow problem by proving a max flow-min cut theorem. In the context of holography, we explain the relation between the max flow program dual to the membrane theory and the max flow program dual to the holographic surface extremization prescription by providing an explicit map from the membrane to the bulk, and derive the former from the latter in thehydrodynamic'' regime without reference to minimal surfaces or membranes.