Quantum Circuits Assisted by Local Operations and Classical Communication: Transformations and Phases of Matter
Lorenzo Piroli, Georgios Styliaris, J. Ignacio Cirac
Abstract
We introduce deterministic state-transformation protocols between many-body quantum states that can be implemented by low-depth quantum circuits followed by local operations and classical communication. We show that this gives rise to a classification of phases in which topologically ordered states or other paradigmatic entangled states become trivial. We also investigate how the set of unitary operations is enhanced by local operations and classical communication in this scenario, allowing one to perform certain large-depth quantum circuits in terms of low-depth ones.
Topics & Concepts
Unitary stateQuantumElectronic circuitSet (abstract data type)PhysicsComputer scienceQuantum circuitQuantum stateQuantum networkTopology (electrical circuits)Quantum algorithmQuantum mechanicsQuantum computerQuantum informationStatistical physicsUnitary transformationQuantum processTheoretical physicsQuantum gateOpen quantum systemQuantum systemQuantum operationQuantum error correctionOne-way quantum computerQuantum technologyQuantum logicQuantum many-body systemsQuantum Computing Algorithms and ArchitectureTopological Materials and Phenomena