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Quantum Group of Xue

CN
School of Physics and Telecommunication Engineering
Professor
Field:Solid-State Quantum Computation
     zyxue@scnu.edu.cn
2006.6-2006.9 PhD @ the University of Hong Kong;
2004.9-2006.7 MSci @ Anhui University;
2000.9-2004.7 BSci @ Jiangsu Institute of Education
from 2016.01, Professor (Research) @ South China Normal University;
2010.12-2015.12, Associate Professor  @ South China Normal University;
2009.10-2010.11, Assistant Professor @ South China Normal University;
Quantum Mechanics;
Quantum Information;
Geometric Quantum Computation:
[11] J. Zhou, B.-J. Liu, Z.-P. Hong, and Z.-Y. Xue*, Fast holonomic quantum computation on solid-state spins with all-optical control, arXiv:1705.08852;submitted to Phys. Rev. Applied.
[10] B.-J. Liu, Z.-H. Huang, Z.-Y. Xue*, and X.-D. Zhang*, Superadiabatic holonomic quantum computation in cavity QED, Phys. Rev. A 95, 062308 (2017).
 
[9] Z.-Y. Xue*, F.-L. Gu, Z.-P. Hong, Z.-H. Yang, D.-W. Zhang, Y. Hu*, and J. Q. You*, Nonadiabatic holonomic quantum computation with dressed-state qubits, Phys. Rev. Appl. 7, 054022 (2017).
 
[8] Z.-Y. Xue*, J. Zhou*, Y.-M. Chu, and Y. Hu*, Holonomic quantum computation with all-resonant control in circuit QED, Phys. Rev. A 94, 022331 (2016).
 
[7] Z.-Y. Xue*, J. Zhou, and Z. D. Wang, Universal holonomic quantum gates in decoherence-free subspace on superconducting circuits, Phys. Rev. A 92, 022320 (2015).
 
[6] J. Zhou, W.-C. Yu, Y.-M. Gao, and Z.-Y. Xue*, Cavity QED implementation of non-adiabatic holonomies for universal quantum gates in DFS with nitrogen-vacancy centers, Opt. Express 23, 14027 (2015).
 
[5] Z.-T. Liang, Y.-X. Du, W. Huang, Z.-Y. Xue*, and H. Yan*, Non-adiabatic holonomic quantum computation in decoherence-free subspace with trapped ions, Phys. Rev. A 89, 062312 (2014).
 
[4] M.-L. Peng, J. Zhou, and Z.-Y. Xue*, Detecting non-Abelian geometric phase in circuit QED, Quantum Inf. Process. 12(8), 2739 (2013).
 
[3] Z.-Y. Xue*, Fast geometric gate operation of superconducting charge qubits in circuit QED, Quantum Inf. Process. 11, 1381 (2012).
 
[2] Z.-Y. Xue, S.-L. Zhu, and Z. D. Wang, Quantum computation in a decoherence-free subspace with superconducting devices, Eur. Phys. J. D 55, 223 (2009).
 
[1] Z.-Y. Xue and Z. D. Wang, Simple unconventional geometric scenario of one-way quantum computation with superconducting qubits inside a cavity, Phys. Rev. A 75, 064303 (2007).
 
 
Topological Quantum Control:
[9] Y-P. Wang, W.-L. Yang, Y. Hu*, Z.-Y. Xue*, and Y. Wu, Detecting topological phases of photons in a circuit QED lattice, npj Quantum Information 2, 16015 (2016). 学院报道,学校新闻报道
 
[8] Z.-Y. Xue*, M. Gong*, J. Liu, Y. Hu, S.-L. Zhu, and Z. D. Wang*, Robust interface between flying and topological qubits, Sci. Rep. 5, 12233 (2015). [“2015年度《Scientific Reports》被引用前100论文”(少于1%)]
 
[7] Y.-P. Wang, W. Wang, Z.-Y. Xue*, W.-L. Yang, Y. Hu*, and Y. Wu, Realizing and characterizing chiral photon flow in a circuit quantum electrodynamics necklace, Sci. Rep. 5, 8352 (2015).
 
[6] S. Liu, C.-J. Shan, Z.-M. Zhang, and Z.-Y. Xue*, Simulation of the Majorana equation in circuit QED, Quantum Inf. Process. 13(8), 1813 (2014).
 
[5] Z.-Y. Xue*, L. B. Shao, Y. Hu, S.-L. Zhu, and Z. D. Wang*, Tunable interfaces for realizing universal quantum computation with topological qubits, Phys. Rev. A 88, 024303 (2013).
 
[4] S. Liu and Z.-Y. Xue*, Probing non-Abelian anyonic statistics with cold atoms in an optical lattice, J. Opt. Soc. Am. B 30, 1720 (2013).
 
[3] Z.-Y. Xue*, Simulation of anyonic fractional statistics of Kitaev's toric model in circuit QED, EPL 93, 20007 (2011).
 
[2] Z.-Y. Xue, S.-L. Zhu, J. Q. You, and Z. D. Wang, Implementing topological quantum manipulation with superconducting circuits, Phys. Rev. A 79, 040303(R) (2009).
 
[1] Z.-Y. Xue, Z. D. Wang, and S.-L. Zhu, Physical implementation of topologically decoherence-protected superconducting qubits, Phys. Rev. A 77, 024301 (2008).
 
Circuit Quantum Electromechanics:
[3] Z.-Y. Xue, Z.-Q. Yin*, Y. Chen, Z. D. Wang*, and S.-L. Zhu*, Topological quantum memory interfacing atomic and superconducting qubits, Sci. China-PMA 59, 660301 (2016).
 
[2] Z.-Y. Xue*, L.-N. Yang, and J. Zhou*, Circuit electromechanics with single photon strong coupling, Appl. Phys. Lett. 107, 023102 (2015).
 
[1] J. Zhou, Y. Hu, Z.-Q. Yin, Z. D. Wang S.-L. Zhu*, and Z.-Y. Xue*, High fidelity quantum state transfer in electromechanical systems with intermediate coupling, Sci. Rep. 4, 6237 (2014).

Editorial Board Member @ Scientifc Reports, Section of "Quanutm Physics"
PhD: 
2014. Jian Zhou, now Associate Professor at Anhui Xinhua University in Hefei.

MSci: 
2016: Ya-Fei Li, now a Physics teacher at a secondary school in Guangzhou.
2016: Li-Na Yang, now a Physics teacher at a secondary school in Zhuhai.
2015: Wei-Can Yu, now a Physics teacher at a secondary school in Zhuhai.
2014: Man-Lv Peng, now a Physics teacher at a secondary school in Guangzhou.
2014: Xiao-Jia Wu, now a Physics teacher at a secondary school in Zhuhai.
2013: Sheng Liu, now PhD candidate at Nanjing University.
2011: Wei-Ping Zou, now a Physics teacher at a secondary school in Zhuhai.
Group Members:
2015.09--: Xiao Zhou, MSci Candidates;
2015.09--: Feng-Lei Gu, MSci Candidates;
2015.09--: Zhuo-Ping Hong, MSci Candidates;
2016.09--:Tao Chen, MSci Candidates;
2016.09--:Xiao-Tao Mo, MSci Candidates;
2017.09--:Jun-Yi Cao, MSci Candidates;
2017.09--:Sai Li, MSci Candidates;