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Extensible superconducting quantum bit structure

A superconducting quantum and bit technology, applied in the field of quantum computing, can solve problems such as the limitation of CZ gate fidelity, and achieve the effects of improving scalability, improving fidelity, and improving accuracy

Active Publication Date: 2019-05-21
UNIV OF SCI & TECH OF CHINA
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in existing multi-qubit systems, it is difficult for adjacent qubits with fixed coupling strength to completely shut off the coupling between each other, so the fidelity of CZ gates in these multi-qubit systems is limited to a certain extent.

Method used

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  • Extensible superconducting quantum bit structure

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Embodiment Construction

[0027] The present disclosure provides a scalable superconducting qubit structure, which uses a coupler circuit to adjust the coupling strength between superconducting qubits connected to the coupler, and the coupling strength can be adjusted to be close to or equal to zero, and can realize adjacent The coupling strength between qubits is turned off to improve the fidelity of the double-qubit CZ gate, and the superconducting qubits are coupled with other circuits through the branch structure formed by multiple capacitors, on the basis of improving the accuracy of quantum computing , which further improves the scalability of the superconducting qubit structure and promotes the application of superconducting quantum computing.

[0028] In order to make the purpose, technical solutions and advantages of the present disclosure clearer, the present disclosure will be further described in detail below in conjunction with specific embodiments and with reference to the accompanying dra...

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Abstract

The invention discloses an extensible superconducting quantum bit structure which comprises a plurality of superconducting quantum bit lines, each superconducting quantum bit line comprises at least one Josephson junction structure, and each Josephson junction structure is a Josephson junction, or a plurality of Josephson junctions, or a combination of the Josephson junction and an auxiliary line;wherein the capacitor and the inductor are directly connected with the Josephson junction; a coupler circuit used for adjusting the coupling strength between the superconducting quantum bits connected with the coupler, and the coupling strength can be adjusted to be close to or equal to zero. The number of the capacitors directly connected with the Josephson junction is multiple, and the superconducting quantum bits are coupled with other circuits through a branch structure formed by the plurality of capacitors. The structure further improves the expansibility of the superconducting quantum bit structure on the basis of improving the precision of quantum calculation, and promotes the application of superconducting quantum calculation.

Description

technical field [0001] The disclosure belongs to the technical field of quantum computing, and relates to an expandable superconducting qubit structure. Background technique [0002] As the size of transistor chips is getting smaller and closer to the limit, the computing performance of traditional classical computers is gradually reaching its peak. Quantum computer is a potential alternative to existing classical computers. Its principles and related algorithms have been extensively studied in the last century. Quantum computing has principles in many mathematical problems such as factorization of large prime numbers and global search. solution speed advantage. Scientists have now established different quantum systems and implemented some simple quantum algorithms, among which superconducting quantum computing is the most promising quantum computing system. [0003] In quantum computing systems, the most important thing is to realize high-fidelity single-qubit gates and d...

Claims

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Application Information

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IPC IPC(8): G06N10/00
Inventor 邓辉龚明吴玉林梁福田廖胜凯彭承志朱晓波潘建伟
Owner UNIV OF SCI & TECH OF CHINA
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