Litcius/Paper detail

Quantum Cellular Automata, Tensor Networks, and Area Laws

Lorenzo Piroli, J. I. Cirac

2020Physical Review Letters56 citationsDOIOpen Access PDF

Abstract

Quantum cellular automata are unitary maps that preserve locality and respect causality. We identify them, in any dimension, with simple tensor networks (projected entangled pair unitary) whose bond dimension does not grow with the system size. As a result, they satisfy an area law for the entanglement entropy they can create. We define other classes of nonunitary maps, the so-called quantum channels, that either respect causality or preserve locality. We show that, whereas the latter obey an area law for the number of quantum correlations they can create, as measured by the quantum mutual information, the former may violate it. We also show that neither of them can be expressed as tensor networks with a bond dimension that is independent of the system size.

Topics & Concepts

Quantum cellular automatonUnitary stateQuantum entanglementLocalityQuantumCausality (physics)Cellular automatonTensor (intrinsic definition)Computer scienceTheoretical physicsPhysicsQuantum mechanicsMathematicsLawPure mathematicsAlgorithmPhilosophyPolitical scienceLinguisticsQuantum many-body systemsQuantum Computing Algorithms and ArchitectureQuantum and electron transport phenomena