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Universal quantum computing using single-particle discrete-time quantum walk

Shivani Singh, Prateek Chawla, Anupam Sarkar, C. M. Chandrashekar

2021Scientific Reports40 citationsDOIOpen Access PDF

Abstract

Quantum walk has been regarded as a primitive to universal quantum computation. In this paper, we demonstrate the realization of the universal set of quantum gates on two- and three-qubit systems by using the operations required to describe the single particle discrete-time quantum walk on a position space. The idea is to utilize the effective Hilbert space of the single qubit and the position space on which it evolves in order to realize multi-qubit states and universal set of quantum gates on them. Realization of many non-trivial gates and engineering arbitrary states is simpler in the proposed quantum walk model when compared to the circuit based model of computation. We will also discuss the scalability of the model and some propositions for using lesser number of qubits in realizing larger qubit systems.

Topics & Concepts

Quantum walkQubitQuantum gateQuantum computerUniversal setRealization (probability)Quantum networkQuantum algorithmComputer scienceQuantum error correctionQuantum informationHilbert spaceQuantum circuitQuantum technologyOne-way quantum computerQuantum Turing machineQuantumTopology (electrical circuits)PhysicsQuantum processPosition (finance)Quantum mechanicsSet (abstract data type)Quantum operationOpen quantum systemQuantum teleportationScalabilityQuantum logicQuantum Fourier transformTheoretical computer scienceQuantum simulatorPOVMMathematicsSpace (punctuation)Quantum channelQuantum Computing Algorithms and ArchitectureQuantum-Dot Cellular AutomataChemical and Physical Properties of Materials