基本信息

姓名:钟有鹏

职称:副研究员

办公室地址:深圳国际量子研究院814

箱:zhongyp@sustech.edu.cn

研究领域: 超导量子计算


教育背景

2015.08-2019.03 芝加哥大学分子工程学院博士

2013.08-2015.07 浙江大学物理系研究生

2009.08-2013.07 浙江大学本科


工作经历

2022.01—至今 南方科技大学量子科学与工程研究院副研究员

2020.11-2022.01 南方科技大学量子科学与工程研究院助理研究员

2019.05-2020.10 芝加哥大学博士后


研究亮点

在单芯片上展示了高保真度远距离微波量子态传输方案:

Y.P. Zhong, et al., Nature Physics 15, 741 (2019)


首次展示了两个芯片之间多比特纠缠态的确定性传输:

Y. Zhong, et al., Nature 590, 571 (2021)


论文及专利

(24). H. Yan#, Y. Zhong#(共同一作), H.-S. Chang, A. Bienfait, M.-H. Chou, C. R. Conner, É. Dumur, J. Grebel, R. G. Povey, and A. N. Cleland. Entanglement purification and protection in a superconducting quantum network. Arxiv: 2201.10679, Physical Review Letters, accepted (2022).

(23). Jiawei Qiu, Yuxuan Zhou, Chang-Kang Hu, Jiahao Yuan, Libo Zhang, Ji Chu, Wenhui Huang, Weiyang Liu, Kai Luo, Zhongchu Ni, Xianchuang Pan, Zhixuan Yang, Yimeng Zhang, Yuanzhen Chen, Xiu-Hao Deng, Ling Hu, Jian Li, Jingjing Niu, Yuan Xu, Tongxing Yan, Youpeng Zhong, Song Liu, Fei Yan, and Dapeng Yu.Suppressing coherent two-qubit errors via dynamical decoupling. Physical Review Applied, 6, 054047 (2021).

(22). É. Dumur, K.J. Satzinger, G. A. Peairs, M.-H. Chou, A. Bienfait, H.-S. Chang, C. R. Conner, J. Grebel, R. G. Povey, Y.P. Zhong, and A. N. Cleland. Quantum communication with itinerant surface acoustic wave phonons. npj Quantum Information, 7, 173 (2021).

(21). J. Grebel, A. Bienfait, É. Dumur, H.-S. Chang, M.-H. Chou, C. R. Conner, G. A. Peairs, R. G. Povey, Y.P. Zhong, and A. N. Cleland. Flux-pumped impedance-engineered broadband Josephson parametric amplifier. Applied Physics Letters, 118, 142601 (2021).

(20). C. R. Conner, A. Bienfait, H.-S. Chang, M.-H. Chou, É. Dumur, J. Grebel, G. A. Peairs, R. G. Povey, H. Yan, Y. Zhong, and A. N. Cleland. Superconducting qubits in a flip-chip architecture. Applied Physics Letters, 118, 232602 (2021).

(19). Y. Zhong, H.-S. Chang, A. Bienfait, É. Dumur, M.-H. Chou, C. R. Conner, J. Grebel, G. A. Peairs, R. G. Povey, D. I. Schuster and A. N. Cleland. Deterministic multi-qubit entanglement in a quantum network. Nature, 590, 571-575 (2021).

(18). H.-S. Chang, Y. P. Zhong, A. Bienfait, M.-H. Chou, C. R. Conner, É. Dumur, J. Grebel, G. A. Peairs, R. G. Povey, K. J. Satzinger and A. N. Cleland. Remote entanglement via adiabatic passage using a tunably dissipative quantum communication system. Physical Review Letters 124, 240502 (2020).

(17). A. Bienfait, Y. P. Zhong, H.-S. Chang, M.-H. Chou, C. R. Conner, É. Dumur, J. Grebel, G. A. Peairs, R. G. Povey, K. J. Satzinger and A. N. Cleland. Quantum erasure using entangled surface acoustic phonons. Physical Review X 10, 021055 (2020).

(16). H.-S. Chang, K. J. Satzinger, Y. P. Zhong, A. Bienfait, M.-H. Chou, C. R. Conner, É. Dumur, J. Grebel, G. A. Peairs, R. G. Povey, and A. N. Cleland. A fast and large bandwidth superconducting variable coupler. Applied Physics Letters 117, 244001 (2020).

(15). G. A. Peairs, M.-H. Chou, A. Bienfait, H.-S. Chang, C. R. Conner, É. Dumur, J. Grebel, R. G. Povey, E. Sahin, K. J. Satzinger, Y. P. Zhong, and A. N. Cleland. Continuous and time-domain coherent signal conversion between optical and microwave frequencies. Physical Review Applied 14, 061001 (2020).

(14). M.-H. Chou, É. Dumur, Y. P. Zhong, G. A. Peairs, A. Bienfait, H.-S. Chang, C. R. Conner, J. Grebel, R. G. Povey, K. J. Satzinger, and A. N. Cleland. Measurements of a quantum bulk acoustic resonator using a superconducting qubit. Applied Physics Letters 117, 254001 (2020).

(13). Y. P. Zhong, H.-S. Chang, K. J. Satzinger, M.-H. Chou, A. Bienfait, C. R. Conner, É. Dumur, J. Grebel, G. A. Peairs, R. G. Povey, D. I. Schuster and A. N. Cleland. Violating Bell’s inequality with remotely connected superconducting qubits. Nature Physics 15, 741–744 (2019).

(12). A. Bienfait, K. J. Satzinger, Y. P. Zhong, H.-S. Chang, M.-H. Chou, C. R. Conner, É. Dumur, J. Grebel, G. A. Peairs, R. G. Povey and A. N. Cleland. Phonon-mediated quantum state transfer and remote qubit entanglement. Science 364, 368-371 (2019).

(11). É. Dumur, K. J. Satzinger, G. A. Peairs, M.-H. Chou, A. Bienfait, H.-S. Chang, C. R. Conner, J. Grebel, R. G. Povey, Y. P. Zhong and A. N. Cleland. Unidirectional distributed acoustic reflection transducers for quantum applications. Applied Physics Letters 114, 223501 (2019).

(10). K. J. Satzinger, C. R. Conner, A. Bienfait, H.-S. Chang, M.-H. Chou, A. Y. Cleland, É. Dumur, J. Grebel, G. A. Peairs, R. G. Povey, S. J. Whiteley, Y. P. Zhong, D. D. Awschalom, D. I. Schuster and A. N. Cleland. Simple non-galvanic flip-chip integration method for hybrid quantum systems. Applied Physics Letters 114, 173501 (2019).

(9). K. J. Satzinger, Y. P. Zhong, H.-S. Chang, G. A. Peairs, A. Bienfait, M.-H. Chou, A. Y. Cleland, C. R. Conner, É. Dumur, J. Grebel, I. Gutierrez, B. H. November, R. G. Povey, S. J. Whiteley, D. D. Awschalom, D. I. Schuster and A. N. Cleland. Quantum control of surface acoustic-wave phonons. Nature 563, 661-665 (2018).

(8). Y. P. Zhong, D. Xu, P. Wang, C. Song, Q. J. Guo, W. X. Liu, K. Xu, B. X. Xia, C. Y. Lu, S. Han, J. W. Pan and H. Wang. Emulating anyonic fractional statistical behavior in a superconducting quantum circuit. Physical Review Letters 117, 110501 (2016).

(7). H. K. Xu, C. Song, W. Y. Liu, G. M. Xue, F. F. Su, H. Deng, Y. Tian, D. N. Zheng, S. Han, Y. P. Zhong, H. Wang, Y. X. Liu and S. P. Zhao. Coherent population transfer between uncoupled or weakly coupled states in ladder-type superconducting qutrits. Nature Communications 7, 11018 (2016).

(6). D. V. Averin, K. Xu, Y. P. Zhong, C. Song, H. Wang and S. Han. Suppression of dephasing by qubit motion in superconducting circuits. Physical Review Letters 116, 010501 (2016).

(5). S. B. Zheng, Y. P. Zhong, K. Xu, Q. J. Wang, H. Wang, L. T. Shen, C. P. Yang, J. M. Martinis, A. N. Cleland and S. Y. Han. Quantum delayed-choice experiment with a beam splitter in a quantum superposition. Physical Review Letters 115, 260403 (2015).

(4). M. Feng, Y. P. Zhong, T. Liu, L. L. Yan, W. L. Yang, J. Twamley and H. Wang. Exploring the quantum critical behaviour in a driven Tavis–Cummings circuit. Nature Communications 6, 7111 (2015).

(3). Y. P. Zhong, Z. L. Wang, J. M. Martinis, A. N. Cleland, A. N. Korotkov and H. Wang. Reducing the impact of intrinsic dissipation in a superconducting circuit by quantum error detection. Nature Communications 5, 3135 (2014).

(2). Z. L. Wang, Y. P. Zhong, L. J. He, H. Wang, J. M. Martinis, A. N. Cleland and Q. W. Xie. Quantum state characterization of a fast tunable superconducting resonator. Applied Physics Letters 102, 163503 (2013).

(1). X. Y. LinPeng, H. Z. Zhang, K. Xu, C. Y. Li, Y. P. Zhong, Z. L. Wang, H. Wang, and Q. W. Xie. Joint quantum state tomography of an entangled qubit–resonator hybrid. New Journal of Physics