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公开(公告)号:US20220311120A1
公开(公告)日:2022-09-29
申请号:US17840814
申请日:2022-06-15
Applicant: THE UNIVERSITY OF CHICAGO
Inventor: David SCHUSTER , Ravi NAIK , Srivatsan CHAKRAM
Abstract: Technologies for a long-lived 3D multimode microwave cavity are disclosed. In the illustrative embodiment, a series of overlapping holes are drilled into a monolithic block of aluminum forming a cavity. The dimensions of the cavity formed by the overlapping holes can be made long by drilling a long series of holes in a row and can be made high by drilling holes a certain depth into the cavity. If two dimensions of the cavity are bigger than the diameter of the holes used to create the cavity, then the cavity can support electromagnetic waves that cannot propagate through the holes, leading to a long lifetime in the cavity. A superconducting qubit or other non-linear element can be inserted into the cavity, which can controllably interact with each of several modes of the cavity. In this way, the modes of the cavity can act as components in a quantum memory.
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公开(公告)号:US20250148346A1
公开(公告)日:2025-05-08
申请号:US19014953
申请日:2025-01-09
Applicant: THE UNIVERSITY OF CHICAGO
Inventor: David SCHUSTER , Srivatsan CHAKRAM
Abstract: Technologies for resource-efficient quantum error correction are disclosed. A quantum computer may include physical gate qubits, capable of general quantum gate operations such as single-qubit operations and nearest-neighbor two-qubit operations. Each physical qubit gate may be controllably coupled to a quantum memory. The quantum memory may have a lower per-gate error rate than the physical qubit gates as well as a lower per-qubit cost. Because errors accrue at a lower rate in the quantum memory, the physical gate qubits may be able to perform error correction for a large number of logical qubits in the quantum memory, even if the physical gate qubits have an error rate relatively close to an error threshold.
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公开(公告)号:US20220156630A1
公开(公告)日:2022-05-19
申请号:US17435307
申请日:2020-03-03
Applicant: THE UNIVERSITY OF CHICAGO
Inventor: David SCHUSTER , Srivatsan CHAKRAM
IPC: G06N10/70
Abstract: Technologies for resource-efficient quantum error correction are disclosed. A quantum computer may include physical gate qubits, capable of general quantum gate operations such as single-qubit operations and nearest-neighbor two-qubit operations. Each physical qubit gate may be controllably coupled to a quantum memory. The quantum memory may have a lower per-gate error rate than the physical qubit gates as well as a lower per-qubit cost. Because errors accrue at a lower rate in the quantum memory, the physical gate qubits may be able to perform error correction for a large number of logical qubits in the quantum memory, even if the physical gate qubits have an error rate relatively close to an error threshold.
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公开(公告)号:US20210184329A1
公开(公告)日:2021-06-17
申请号:US17184842
申请日:2021-02-25
Applicant: THE UNIVERSITY OF CHICAGO
Inventor: David SCHUSTER , Ravi NAIK , Srivatsan CHAKRAM
Abstract: Technologies for a long-lived 3D multimode microwave cavity are disclosed. In the illustrative embodiment, a series of overlapping holes are drilled into a monolithic block of aluminum forming a cavity. The dimensions of the cavity formed by the overlapping holes can be made long by drilling a long series of holes in a row and can be made high by drilling holes a certain depth into the cavity. if two dimensions of the cavity are bigger than the diameter of the holes used to create the cavity, then the cavity can support electromagnetic waves that cannot propagate through the holes, leading to a long lifetime in the cavity. A superconducting qubit or other non-linear element can be inserted into the cavity, which can controllably interact with each of several modes of the cavity. In this way, the modes of the cavity can act as components in a quantum memory.
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