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Encoding Qubits in Multimode Grid States

Baptiste Royer, Shraddha Singh, S. M. Girvin

2022PRX Quantum40 citationsDOIOpen Access PDF

Abstract

Encoding logical quantum information in harmonic oscillator modes is a promising and hardwareefficient approach to the realization of a quantum computer. In this work, we propose to encode logical qubits in grid states of an ensemble of harmonic oscillator modes. We first discuss general results about these multimode bosonic codes; how to design them, how to practically implement them in different experimental platforms, and how lattice symmetries can be leveraged to perform logical non-Clifford operations. We then introduce in detail two two-mode grid codes based on the hypercubic and D 4 lattices, respectively, showing how to perform a universal set of logical operations. We demonstrate numerically that multimode grid codes have, compared to their single-mode counterpart, increased robustness against propagation of errors from ancillas used for error correction. Finally, we highlight some interesting links between multidimensional lattices and single-mode grid codes concatenated with qubit codes.

Topics & Concepts

QubitMulti-mode optical fiberEncoding (memory)GridComputer sciencePhysicsTelecommunicationsQuantum mechanicsQuantumMathematicsOptical fiberArtificial intelligenceGeometryQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyNeural Networks and Reservoir Computing
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