Model-based frequency optimization for frequency-tunable superconducting processors

被引:0
|
作者
Qiujiang Guo
机构
[1] ZJU-HangzhouGlobalScientificandTechnologicalInnovationCenter,SchoolofPhysics,ZhejiangUniversity
来源
Science China(Physics,Mechanics & Astronomy) | 2025年 / 02期
关键词
D O I
暂无
中图分类号
TP38 [其他计算机]; TP332 [运算器和控制器(CPU)];
学科分类号
081201 ;
摘要
<正>Over the past twenty years, superconducting quantum computation has become one of the most promising candidates leading to fault-tolerant quantum computers. This is largely due to the huge experimental progress on improving coherence time, qubit number, and control accuracy on recent superconducting processors. In particular, frequency-tunable two-dimensional architecture and well-established device fabrication processes allow us to scale up the system size of superconducting processors while maintaining the quality of each qubit.
引用
收藏
页码:197 / 198
页数:2
相关论文
共 50 条
  • [1] Model-based frequency optimization for frequency-tunable superconducting processors
    Guo, Qiujiang
    SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY, 2025, 68 (02)
  • [2] Optimizing frequency allocation for superconducting quantum processors with frequency-tunable qubits
    BiYing Wang
    Wuxin Liu
    Xiangyu Chen
    Shu Xu
    Jiangyu Cui
    ManHong Yung
    Science China(Physics,Mechanics & Astronomy), 2025, (02) : 27 - 40
  • [3] Optimizing frequency allocation for superconducting quantum processors with frequency-tunable qubits
    Wang, Bi-Ying
    Liu, Wuxin
    Chen, Xiangyu
    Xu, Shu
    Cui, Jiangyu
    Yung, Man-Hong
    SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY, 2025, 68 (02)
  • [4] Frequency-tunable superconducting cloaking
    Li, Peining
    Liu, Youwen
    Meng, Yunji
    Zhu, Mingjun
    JOURNAL OF PHYSICS D-APPLIED PHYSICS, 2010, 43 (48)
  • [5] Diabatic Gates for Frequency-Tunable Superconducting Qubits
    Barends, R.
    Quintana, C. M.
    Petukhov, A. G.
    Chen, Yu
    Kafri, D.
    Kechedzhi, K.
    Collins, R.
    Naaman, O.
    Boixo, S.
    Arute, F.
    Arya, K.
    Buell, D.
    Burkett, B.
    Chen, Z.
    Chiaro, B.
    Dunsworth, A.
    Foxen, B.
    Fowler, A.
    Gidney, C.
    Giustina, M.
    Graff, R.
    Huang, T.
    Jeffrey, E.
    Kelly, J.
    Klimov, P. V.
    Kostritsa, F.
    Landhuis, D.
    Lucero, E.
    McEwen, M.
    Megrant, A.
    Mi, X.
    Mutus, J.
    Neeley, M.
    Neill, C.
    Ostby, E.
    Roushan, P.
    Sank, D.
    Satzinger, K. J.
    Vainsencher, A.
    White, T.
    Yao, J.
    Yeh, P.
    Zalcman, A.
    Neven, H.
    Smelyanskiy, V. N.
    Martinis, John M.
    PHYSICAL REVIEW LETTERS, 2019, 123 (21)
  • [6] Entangled Frequency-Tunable Microwave Photons in a Superconducting Circuit
    Zhang, Kaixuan
    Cao, Chunhai
    Chen, Jian
    Wang, Huabing
    Sun, Guozhu
    Wu, Peiheng
    APPLIED SCIENCES-BASEL, 2023, 13 (06):
  • [7] Quantum Control of Frequency-Tunable Transmon Superconducting Qubits
    Garcia-Ripoll, J. J.
    Ruiz-Chamorro, A.
    Torrontegui, E.
    PHYSICAL REVIEW APPLIED, 2020, 14 (04)
  • [8] Frequency-tunable microwave quantum light source based on superconducting quantum circuits
    Li, Yan
    Wang, Zhiling
    Bao, Zenghui
    Wu, Yukai
    Wang, Jiahui
    Yang, Jize
    Xiong, Haonan
    Song, Yipu
    Zhang, Hongyi
    Duan, Luming
    CHIP, 2023, 2 (03):
  • [9] Frequency-tunable superconducting resonators via nonlinear kinetic inductance
    Vissers, M. R.
    Hubmayr, J.
    Sandberg, M.
    Chaudhuri, S.
    Bockstiegel, C.
    Gao, J.
    APPLIED PHYSICS LETTERS, 2015, 107 (06)
  • [10] Frequency-tunable power divider based on frequency sampling method
    Yang, Xiao
    Zhang, Xuchun
    Feng, Xiaoyu
    2018 INTERNATIONAL CONFERENCE ON MICROWAVE AND MILLIMETER WAVE TECHNOLOGY (ICMMT2018), 2018,
12345