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Quantum computation with cat qubits

Jérémie Guillaud, Joachim Cohen, Mazyar Mirrahimi

2023SciPost Physics Lecture Notes23 citationsDOIOpen Access PDF

Abstract

These are the lecture notes from the 2019 Les Houches Summer School on “Quantum Information Machines”. After a brief introduction to quantum error correction and bosonic codes, we focus on the case of cat qubits stabilized by a nonlinear multi-photon driven dissipation process. We argue that such a system can be seen as a self-correcting qubit where bit-flip errors are robustly and exponentially suppressed. Next, we provide some experimental directions to engineer such a multi-photon driven dissipation process with superconducting circuits. Finally, we analyze various logical gates that can be implemented without re-introducing bit-flip errors. This set of bias-preserving gates pave the way towards a hardware-efficient and fault-tolerant quantum processor.

Topics & Concepts

QubitQuantum computerComputer scienceQuantum error correctionDissipationError detection and correctionQuantum informationQuantumPhotonElectronic engineeringUniversal setSet (abstract data type)Computer engineeringPhysicsQuantum mechanicsAlgorithmEngineeringProgramming languageQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureNeural Networks and Reservoir Computing