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公开(公告)号:US20220190933A1
公开(公告)日:2022-06-16
申请号:US17598148
申请日:2020-03-27
申请人: Yale University
发明人: Kyungjoo Noh , Steven M. Girvin , Liang Jiang
IPC分类号: H04B10/70
摘要: Systems and methods for performing bosonic quantum error correction (QEC) using Gottesman-Kitaev-Preskill (GKP) states are provided. An ancilla quantum mechanical oscillator is used to probe Gaussian noise experienced by a data quantum mechanical oscillator without disturbing the state of the data quantum mechanical oscillator. The ancilla quantum mechanical oscillator is initialized with a GKP state and entangled with the state of a data quantum mechanical oscillator to correlate any noise experienced by the data state with the state of the ancilla quantum mechanical oscillator. The states are then disentangled, and momentum and position quadrature operators of the ancilla quantum mechanical oscillator are measured and used to perform QEC on the information stored in the data quantum mechanical oscillator.
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公开(公告)号:US11909451B2
公开(公告)日:2024-02-20
申请号:US17598148
申请日:2020-03-27
申请人: Yale University
发明人: Kyungjoo Noh , Steven M. Girvin , Liang Jiang
摘要: Systems and methods for performing bosonic quantum error correction (QEC) using Gottesman-Kitaev-Preskill (GKP) states are provided. An ancilla quantum mechanical oscillator is used to probe Gaussian noise experienced by a data quantum mechanical oscillator without disturbing the state of the data quantum mechanical oscillator. The ancilla quantum mechanical oscillator is initialized with a GKP state and entangled with the state of a data quantum mechanical oscillator to correlate any noise experienced by the data state with the state of the ancilla quantum mechanical oscillator. The states are then disentangled, and momentum and position quadrature operators of the ancilla quantum mechanical oscillator are measured and used to perform QEC on the information stored in the data quantum mechanical oscillator.
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公开(公告)号:US20190266512A1
公开(公告)日:2019-08-29
申请号:US16348131
申请日:2017-11-10
申请人: Yale University
发明人: Chao Shen , Kyungjoo Noh , Victor V. Albert , Stefan Krastanov , Michel Devoret , Robert J. Schoelkopf , Steven M. Girvin , Liang Jiang
IPC分类号: G06N10/00
摘要: According to some aspects, a quantum information system is provided that includes an ancilla qubit; a qudit coupled to the ancilla qubit, a detector configured to generate a detection result based on a quantum state of the ancilla qubit, and a driving source coupled to the qudit and the ancilla qubit and configured to apply at least one qudit driving signal to the qudit based on the detection result and at least one qubit driving signal to the qudit based on the detection result.
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公开(公告)号:US20240303520A1
公开(公告)日:2024-09-12
申请号:US18271370
申请日:2022-01-31
摘要: Cavity resonators are promising resources for quantum technology, while native nonlinear interactions for cavities are typically too weak to provide the level of quan-turn control required to deliver complex targeted operations. Here we investigate a scheme to engineer a target Hamiltonian for photonic cavities using ancilla qubits. By off-resonantly driving dispersively coupled ancilla qubits, we develop an optimized approach to engineering an arbitrary photon-number dependent (PND) Hamiltonian for the cavities while minimizing the operation errors. The engineered Hamiltonian admits various applications including canceling unwanted cavity self-Kerr interac-tions, creating higher-order nonlinearities for quantum simulations, and designing quantum gates resilient to noise. Our scheme can be implemented with coupled microwave cavities and transmon qubits in superconducting circuit systems.
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公开(公告)号:US10776709B2
公开(公告)日:2020-09-15
申请号:US16348131
申请日:2017-11-10
申请人: Yale University
发明人: Chao Shen , Kyungjoo Noh , Victor V. Albert , Stefan Krastanov , Michel Devoret , Robert J. Schoelkopf, III , Steven M. Girvin , Liang Jiang
摘要: According to some aspects, a quantum information system is provided that includes an ancilla qubit; a qudit coupled to the ancilla qubit, a detector configured to generate a detection result based on a quantum state of the ancilla qubit, and a driving source coupled to the qudit and the ancilla qubit and configured to apply at least one qudit driving signal to the qudit based on the detection result and at least one qubit driving signal to the qudit based on the detection result.
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