Litcius/Paper detail

Silicon photonic quantum computing with spin qubits

Xiruo Yan, Sebastian Gitt, Becky Lin, Donald Witt, Mahssa Abdolahi, Abdelrahman E. Afifi, Adan Azem, Adam Darcie, Jingda Wu, Kashif M. Awan, Matthew Mitchell, Andreas Pfenning, Lukas Chrostowski, Jeff F. Young

2021APL Photonics49 citationsDOIOpen Access PDF

Abstract

Universal quantum computing holds the promise to fundamentally change today’s information-based society, yet a hardware platform that will provide a clear path to fault-tolerant quantum computing remains elusive. One recently proposed platform involves the use of circuit-bound photons to build cluster states and perform one-way measurement-based quantum computations on arrays of long-coherence-time solid-state spin qubits. Herein, we discuss the challenges that are faced during any practical implementation of this architecture by itemizing the key physical building blocks and the constraints imposed on the spin qubits and the photonic circuit components by the requirements of fault-tolerant performance. These considerations point to silicon as a leading candidate to host such a platform, and a roadmap for developing a silicon photonic circuit-based platform for measurement-based, fault-tolerant universal quantum computing is offered.

Topics & Concepts

Quantum computerQubitCluster stateComputer sciencePhotonicsQuantum informationQuantum technologyCoherence (philosophical gambling strategy)Quantum networkSuperconducting quantum computingQuantumElectronic engineeringPhysicsQuantum mechanicsEngineeringOpen quantum systemQuantum Information and CryptographyNeural Networks and Reservoir ComputingOptical Network Technologies
Silicon photonic quantum computing with spin qubits | Litcius