Transferring arbitrary d-dimensional quantum states of a superconducting transmon qudit in circuit QED

Tong Liu; Qi Ping Su; Jin Hu Yang; Yu Zhang; Shao Jie Xiong; Jin Ming Liu; Chui Ping Yang

doi:10.1038/s41598-017-07225-5

Transferring arbitrary d-dimensional quantum states of a superconducting transmon qudit in circuit QED

Tong Liu
, Qi Ping Su
, Jin Hu Yang
, Yu Zhang
, Shao Jie Xiong
, Jin Ming Liu
, Chui Ping Yang^*

^*此作品的通讯作者

物理与电子科学学院

Hangzhou Normal University
East China Normal University

科研成果: 期刊稿件 › 文章 › 同行评审

16 引用（Scopus）

摘要

A qudit (d-level quantum system) has a large Hilbert space and thus can be used to achieve many quantum information and communication tasks. Here, we propose a method to transfer arbitrary d-dimensional quantum states (known or unknown) between two superconducting transmon qudits coupled to a single cavity. The state transfer can be performed by employing resonant interactions only. In addition, quantum states can be deterministically transferred without measurement. Numerical simulations show that high-fidelity transfer of quantum states between two superconducting transmon qudits (d ≤ 5) is feasible with current circuit QED technology. This proposal is quite general and can be applied to accomplish the same task with natural or artificial atoms of a ladder-type level structure coupled to a cavity or resonator.

源语言	英语
文章编号	7039
期刊	Scientific Reports
卷	7
期	1
DOI	https://doi.org/10.1038/s41598-017-07225-5
出版状态	已出版 - 1 12月 2017

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abstract = "A qudit (d-level quantum system) has a large Hilbert space and thus can be used to achieve many quantum information and communication tasks. Here, we propose a method to transfer arbitrary d-dimensional quantum states (known or unknown) between two superconducting transmon qudits coupled to a single cavity. The state transfer can be performed by employing resonant interactions only. In addition, quantum states can be deterministically transferred without measurement. Numerical simulations show that high-fidelity transfer of quantum states between two superconducting transmon qudits (d ≤ 5) is feasible with current circuit QED technology. This proposal is quite general and can be applied to accomplish the same task with natural or artificial atoms of a ladder-type level structure coupled to a cavity or resonator.",

author = "Tong Liu and Su, \{Qi Ping\} and Yang, \{Jin Hu\} and Yu Zhang and Xiong, \{Shao Jie\} and Liu, \{Jin Ming\} and Yang, \{Chui Ping\}",

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AU - Liu, Tong

AU - Su, Qi Ping

AU - Yang, Jin Hu

AU - Zhang, Yu

AU - Xiong, Shao Jie

AU - Liu, Jin Ming

AU - Yang, Chui Ping

PY - 2017/12/1

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N2 - A qudit (d-level quantum system) has a large Hilbert space and thus can be used to achieve many quantum information and communication tasks. Here, we propose a method to transfer arbitrary d-dimensional quantum states (known or unknown) between two superconducting transmon qudits coupled to a single cavity. The state transfer can be performed by employing resonant interactions only. In addition, quantum states can be deterministically transferred without measurement. Numerical simulations show that high-fidelity transfer of quantum states between two superconducting transmon qudits (d ≤ 5) is feasible with current circuit QED technology. This proposal is quite general and can be applied to accomplish the same task with natural or artificial atoms of a ladder-type level structure coupled to a cavity or resonator.

AB - A qudit (d-level quantum system) has a large Hilbert space and thus can be used to achieve many quantum information and communication tasks. Here, we propose a method to transfer arbitrary d-dimensional quantum states (known or unknown) between two superconducting transmon qudits coupled to a single cavity. The state transfer can be performed by employing resonant interactions only. In addition, quantum states can be deterministically transferred without measurement. Numerical simulations show that high-fidelity transfer of quantum states between two superconducting transmon qudits (d ≤ 5) is feasible with current circuit QED technology. This proposal is quite general and can be applied to accomplish the same task with natural or artificial atoms of a ladder-type level structure coupled to a cavity or resonator.

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JO - Scientific Reports

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Transferring arbitrary d-dimensional quantum states of a superconducting transmon qudit in circuit QED

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