赵培茈
-
研究员
硕士生导师
- 性别:男
- 毕业院校:山东大学
- 学历:研究生(博士)毕业
- 学位:博士生
- 在职信息:在职
- 所在单位:物理学院
- 入职时间: 2022-07-28
- 办公地点:山大南路27号知新楼C1004
- 联系方式:15665706325
- 电子邮箱:pzzhao@sdu.edu.cn
访问量:
-
[1]
P. Z. Zhao, J. B. Gong*.
Mitigation of systematic amplitude error in nonadiabatic holonomic operations.
Phys. Rev. A,
110,
012426,
2024.
-
[2]
G. F. Xu* and P. Z. Zhao*.
Average-value estimation in nonadiabatic holonomic quantum computation.
Phys. Rev. A,
108,
052617,
2023.
-
[3]
N. N. Ma, W. H. Chu, P. Z. Zhao, and J. B. Gong*.
Adiabatic quantum learning.
Phys. Rev. A,
108,
042420,
2023.
-
[4]
P. Z. Zhao* and D. M. Tong*.
Nonadiabatic holonomic quantum computation based on a commutation relation.
Phys. Rev. A,
108,
012609,
2023.
-
[5]
P. Z. Zhao, Z. Jin*, and D. M. Tong*.
Dissipative preparation of generalized Bell states with the Sørensen-Mølmer setting.
Phys. Rev. Applied.,
18,
014051,
2022.
-
[6]
D. J. Zhang, P. Z. Zhao, and G. F. Xu.
Inconsistency of the theory of geometric phases in adiabatic evolution.
Phys. Rev. A,
105,
042208,
2022.
-
[7]
X. Wu and P. Z. Zhao*.
Nonadiabatic geometric quantum computation protected by dynamical decoupling via the XXZ Hamiltonian.
Frontiers of Physics,
17,
31502,
2021.
-
[8]
T. H. Xing, P. Z. Zhao*, and D. M. Tong*.
Realization of nonadiabatic holonomic multiqubit controlled gates with Rydberg atoms.
Phys. Rev. A,
104,
012618,
2021.
-
[9]
G. F. Xu, P. Z. Zhao, Erik Sjöqvist*, and D. M. Tong*.
Realizing nonadiabatic holonomic quantum computation beyond the three-level setting.
Phys. Rev. A,
103,
052605,
2021.
-
[10]
P. Z. Zhao, G. F. Xu*, and D. M. Tong*.
Advances in nonadiabatic holonomic quantum computation.
Chin. Sci. Bull.,
66,
1935,
2021.
-
[11]
P. Z. Zhao, Z. J. Z. Dong, Z. X. Zhang, G. P. Guo, D. M. Tong*, and Y. Yin*.
Experimental realization of nonadiabatic geometric gates with a superconducting Xmon qubit.
Sci. China-Phys. Mech. Astron.,
64,
250362,
2021.
-
[12]
P. Z. Zhao, X. Wu, and D. M. Tong*.
Dynamical-decoupling-protected nonadiabatic holonomic quantum computation.
Phys. Rev. A,
103,
012205,
2021.
-
[13]
X. Wu and P. Z. Zhao*.
Universal nonadiabatic geometric gates protected by dynamical decoupling.
Phys. Rev. A,
102,
032627,
2020.
-
[14]
P. Z. Zhao, K. Z. Li, G. F. Xu, and D. M. Tong*.
General approach for constructing Hamiltonians for nonadiabatic holonomic quantum computation.
Phys. Rev. A,
101,
062306,
2020.
-
[15]
K. Z. Li, P. Z. Zhao*, and D. M. Tong*.
Approach to realizing nonadiabatic geometric gates with prescribed evolution paths.
Phys. Rev. Research,
2,
023295,
2020.
-
[16]
Z. X. Zhang, P. Z. Zhao, T. H. Wang, L. Xiang, Z. L. Jia, P. Duan, D. M. Tong*, Y. Yin*, and G. P. Guo*.
Single-shot realization of nonadiabatic holonomic gates with a superconducting Xmon qutrit.
New J. Phys.,
21,
073024,
2019.
-
[17]
P. Z. Zhao, G. F. Xu*, and D. M. Tong*.
Nonadiabatic holonomic multiqubit controlled gates.
Phys. Rev. A,
99,
052309,
2019.
-
[18]
P. Z. Zhao, X. Wu, T. H. Xing, G. F. Xu*, and D. M. Tong*.
Nonadiabatic holonomic quantum computation with Rydberg superatoms.
Phys. Rev. A,
98,
032313,
2018.
-
[19]
P. Z. Zhao, X. D. Cui, G. F. Xu*, E. Sjöqvist*, and D. M. Tong*.
Rydberg-atom-based scheme of nonadiabatic geometric quantum computation.
Phys. Rev. A,
96,
052316,
2017.
-
[20]
G. F. Xu, P. Z. Zhao, D. M. Tong*, and Erik Sjöqvist*.
Robust paths to realize nonadiabatic holonomic gates.
Phys. Rev. A,
95,
052347,
2017.