Universal fault-tolerant measurement-based quantum computation
Benjamin J. Brown, Sam Roberts
Abstract
The authors show how to map models for scalable quantum computation that have been designed for more conventional static qubits onto into a measurement-based picture; a model of quantum computation that is well suited for qubits that fly through space at the speed of light. The paper shows how to simulate braids between Majorana fermions with photonic qubits to perform the fault-tolerant logic gates of a scalable quantum computer.
Topics & Concepts
Quantum computerQuantum error correctionQubitQuantum gatePhysicsQuantum algorithmQuantum mechanicsQuantum technologyComputer scienceQuantum networkQuantum circuitComputationQuantum informationOpen quantum systemQuantumOne-way quantum computerQuantum logicTopology (electrical circuits)Quantum Fourier transformQuantum teleportationQuantum operationControlled NOT gateTheoretical computer scienceCluster stateScalabilityW stateSuperconducting quantum computingQuantum channelQuantum Turing machineMathematicsTheoretical physicsQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications