基本信息Personal Information
教授博士生导师
硕士生导师
主要任职:物理学院副院长
其他任职:副院长
性别:男
毕业院校:大连理工大学
学位:博士
在职信息:在职
所在单位:物理学院
学科:理论物理
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个人简介Personal Profile
2002年师从宋鹤山教授进行量子信息相关理论研究,2007年博士毕业留校任教。一直从事量子纠缠、量子关联、量子相干性、量子不确定关系等量子力学基本问题以及量子光学等相关理论问题的研究,最近尤其对开放量子体系以及量子热力学感兴趣。就相关问题的研究在Phys.Rev., Sci.Rep.等学术杂志发表论文100余篇。现为Phys.Rev.Lett.,Phys.Rev.A,Phys.Rev.Applied,Sci.Rep.,NJP,OE,LPL,AdP,QIP等诸多杂志的审稿人。2010年在英国Bristol大学S. Popescu小组进行为期一年的学术访问,近几年多次赴英国,新加坡,西班牙等地进行学术访问交流。2009年博士论文《多体量子态的可分性与纠缠度量》获全国百篇优秀博士论文提名。入选第5批辽宁省百千万人才工程(千人),首批大连理工大学星海学者(优青)。参与科研项目《量子信息应用的物理基础研究》及《量子开放系统理论及其研究》分别获辽宁省自然科学技术三等奖和吉林省自然科学技术一等奖。
主持辽宁省博士启动基金1项;理工大学各种基金多项;国家自然科学基金主任基金1项,青年基金1项,面上基金2项;参与国家自然科学基金多项。
教育经历Education Background
工作经历Work Experience
1995.91998.7
普兰店市第三中学
无
2002.92007.7
大连理工大学
理论物理
博士
1998.92002.7
大连理工大学
应用物理
学士
2007.7至今
大连理工大学
教师
研究方向Research Focus
社会兼职Social Affiliations
量子力学基础理论;
开放量子体系
量子信息理论
量子光学理论
基本信息Personal Information
教授博士生导师
硕士生导师
主要任职:物理学院副院长
其他任职:副院长
性别:男
毕业院校:大连理工大学
学位:博士
在职信息:在职
所在单位:物理学院
学科:理论物理
电子邮箱:
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当前位置: 中文主页 >> 科学研究
研究领域
93)Bao-qing Guo, Tong Liu, andChang-shui Yu
Quantum thermal transistor based on the qubit-qutrit coupling
Phys.Rev.E98022118(2018).
92)Tong Liu, Bao-Qing Guo, Yang Zhang, andChang-shui Yu
One-step implementation of a multi-target-qubit controlled phase gate in a multi-resonator circuit QED
System.
Quant. Inf. Proc.17, 240(2018).
91)Sohaih Shah, Yang Zhang, G. Bari,Chang-shui Yu
Tunable OMIT and Fano resonances in the optomechanical system with levitated nano-particle
IJTP57(9):2814 (2018).
90)Yang Zhang, Tong Liu, Shao-xiong Wu,Chang-shui Yu
Optical response mediated by a two level system in the hybrid Optomechanical system.
Quant. Inf. Proc.17, 209(2018).
89)Jiasen Jin, andChang-shui Yu
Non-Markovianity in a collision model with environmental block
New J. Phys.20,053026(2018)
88)Li-qiang Zhang, Ting-ting Ma,Chang-shui Yu
Measurement-induced non-locality in terms of the inverse approximate joint diagonalization .
Phys. Rev. A97,032112 (2018).
87)Tong Liu, Bao-qing Guo,Chang-shui Yu,Wei-Ning Zhang
One-step implementation of a hybrid Fredkin gate with quantum memories and single superconducting. qubit in circuit QED and its applications.
Opt. Exp.26,4498 (2018).
86)Shaoxiong Wu, Yang Zhang,Chang-shui Yu
Local quantum uncertainty guarantees the measurement precision for two coupled two-level systems in
non-Markovian environment.
Annals of Phys.39071 (2018).
85)Haiqing Zhao,Chang-shui Yu
Remedying the strong monotonicity of the coherence measure in terms of the Tsallis relativity $\alpha$ entropy.
Sci. Rep.8, 299 (2018).
84)Si-ren Yang,Chang-shui Yu
Operational resource theory of total coherence.
Annal of Physics388, 305 (2018).
83)X. L. Zhao, Z. C. Shi,Chang-shui Yu, X. X. Yi,
Influence of localization transition on dynamical properties for an extended Aubry-Andre-Harper model
J. Phys. B-Atom Mol. Opt. Phys.50, 235503 (2017).
82)Zi-chen He, Xin-yun Huang,Chang-shui Yu
Enabling the self-contained refrigerator to work beyond its limits by filtering the reservoirs.
Phys. Rev. E96, 052126 (2017).
81)Tong Liu, Chui-ping Yang, Yang Zhang,Chang-shui Yu,Wei-ning Zhang,
Circuit QED: Cross-Kerr-effect induced by a superconducting qutrit without classical pulses.
Quant. Inf. Proc.16, 209 (2017).
80) X. L. Zhao, Z. C. Shi,Chang-shui Yu, X. X. Yi,
Effect of loss on the topological features of dimer chains described by the extended Aubry-Andre-
Harper model.
Phys. Rev. A95, 02337 (2017).
79)Sohail Shah, Yang Zhang,Muhammad Usman,Chang-shui Yu,
Controllable optomechanically induced transparency in coupled optomechanical systems.
Euro. Phys. J. D71,103 (2017).
78)Chang-shui Yu,
Quantum coherence via skew information and its polygamy.
Phys. Rev. A95, 042337 (2017).
77) Tong Liu,Chang-shui Yu,Wei-ning Zhang,
Deterministic transfer of an unknown qutrit state assisted by the low- Q microwave resonators
Phys. Letts. A381, 1727 (2017).
76)Jun Zhang, Si-ren Yang,Yang Zhang,Chang-shui Yu,
The classical correlation limits the ability of measurement-induced average coherence.
Sci. Rep.7, 45598 (2017).
75)Jun Zhang, Yang Zhang,Chang-shui Yu,
Strongeruncertaintyrelationswithimprovableupperandlowerbounds.Quant. Inf. Proc.16, 131 (2017).
74)Shao-xiong Wu,Chang-shui Yu,
The Precision of Parameter estimation for dephasing model under squeezed reservoir.
Int. J. Quant. Inf.56, 1198 (2017).
73)Yang Zhang, SohailShah,Chang-shui Yu,
Perfect photon absorption in hybrid atom-optomechanical system.
Europhys. Lett.115, 64002 (2016).
72)Yang Zhang, Jun Zhang,Chang-shui Yu,
Optimal photon blockade on the maximal atomic coherence.
Int. J. Theor. Phys55, 5239 (2016).
71)Chang-shui Yu, Ting-ting Shao, Dong-mo Li,
Distribution of standard deviation of an observable among superposed states.
Annals of Physics373, 43 (2016).
70)Chang-shui Yu,Si-ren Yang and Bao-qing Guo,
Total quantum coherence and its applications.
Quant. Inf. Proc.15, 3773 (2016).
69)Sohail Shah, Yang Zhang, Jun Zhang,Chang-shui Yu,
Optomechanically induced transparency in multi-cavity optomechanical system with and without one two-level atom.
Scientific Reports6, 28830 (2016).
68)Jun Zhang, Yang Zhang,Chang-shui Yu,
The measurement-disturbance relation and the disturbance trade-off relation in terms of relative entropy.
Int. J. Theor. Phys55, 3949 (2016).
67)Yang Zhang, Jun Zhang,Chang-shui Yu,
Photon statistics on the extreme entanglement.
Scientific Reports6, 24098 (2016).
66)Chang-shui Yu, Bao-qing Guo, Si-ren Yang,
Measurable genuine tripartite entanglement of (2*2*n)- dimensional quantum states via only two-fold copies.
Phys. Rev. A93, 042304 (2016).
65) Shaoxiong Wu, Jun Zhang,Chang-shui Yu, He-shan Song,
Weak measurements destroy too much quantum correlation.
Int. J. Theor. Phys.55(1), 62 (2016).
64)Yang Zhang,Jun Zhang,Chang-shui Yu,
Multistability in the coupled semiconductor microcavities.
Int. J. Quant. Inf.13(7), ** (2015).
63)Yang Zhang,Jun Zhang,Chang-shui Yu,
Center-of-mass motion induced photon blockade.
Annals of Physics361, 563(2015).
62) Jun Zhang, Yang Zhang,Chang-shui Yu,
Entropy uncertainty relationwith multiplemeasurementsin the presence of memory.
Scientific Reports5,11701(2015).
61)Shao-xiong Wu,Chang-shui Yuand He-shan Song,
Effects of the reservoir squeezing on the precision of parameter estimation.
Phys. Lett. A379(18-19), 1228(2015).
60)Yahong Wang,Chang-shui Yu,
Minimum remote state preparation of an arbitrary two-level one-atom state via cavity QED.
Int. J. Quant. Inf.13(2), **(2015).
59)Jun Zhang, Shaoxiong WuandChang-shui Yu, Xiaoguang Wang,
Analytic Symmetric Information-theoretical Discord for One Class of Two-qubit States.
Int. J. Quant. Inf.13(1), **(2015).
58) Jun Zhang, Yang Zhang,Chang-shui Yu,
Renyi entropy uncertainty relation for successive projective measurements.
Quant. Inf. Proc.14, 2239 (2015).
57) Lin Wang,Chang-shui Yu,
Heat current and quantum correlation subject to squeezing reservoirs.
Int. J. Theor. Phys.54 (8),2942 (2015).
56)Shao-xiong Wu, YangZhang,Chang-shui Yuand He-shan Song,
Initial-state dependence in quantum speed limit.
J. Phys. A:Gen. Maths.48,045301(2015).
55)Jun Zhang, Yang Zhang,Chang-shui Yu,
The role ofquantum correlation in the quantum cloning.
Euro. Phys. J. D68,365(2014).
54)Chang-shui Yu, Qi-yao Zhu,
Re-examinaing the self-contained refrigerator in the strong coupling regime.
Phys.Rev.E90,052142 (2014).
53)Jun Zhang, Shaoxiong Wu,Chang-shui Yu,
Quantum correlation cost of the weak measurement.
Annals of Physics.351,104 (2014).
52)Chang-shui Yu, Shaoxiong Wu, Xiaoguang Wang, X. X. Yi and He-shan Song,
Quantum correlation measure in arbitrary bipartite systems.
Europhysics. Lett.107, 10007 (2014).
51)Chang-shui Yu, Yang Zhang and Haiqing Zhao,
Quantum correlation via coherence.
Quant. Inf. Proc.13(6), 1437 (2014).
50) Shaoxiong Wu, Jun Zhang,Chang-shui Yu, He-shanSong,
Measurement induced nonlocality based on skew information.
Phys. Lett. A.378 (4),344 (2014).
49) Lin Wang,Chang-shui Yu,
The role of a quantum channel on a quantum state.
Int. J. Theor. Phys.53 (2),715 (2014).
48)Chang-shui Yu, Bo Li andH. Fan,
Sudden changes of quantum correlation.
Quant. Inf. & Comp.14(5&6),0454 (2014).
47)Jun Zhang, Yang Zhang, Shaoxiong WuandChang-shui Yu,
Non-classicalities via local disturbance of unitary operations.
Euro. Phys. J. D.67, 217 (2013).
46)Zhenni Li,Chang-shui Yu, Shuxue Ding, and Zunyi Tang,
Nondestructive Probing Scheme of Quantum State without Quantum Correlation
Int. J. Theo. Phys.52, 3676 (2013).
45)Shao-xiong Wu, Jun Zhang,Chang-shui Yu, and He-shan Song,
Quantum correlation can improve the distillation efficiency.
Int. J. Quant. Inf.11, ** (2013).
44)Jia-sen Jin,Zhen-ni Li,Chang-shui Yu, andHe-shan Song,
Nondestructive detection of atomic Werner state with fiber-taper-coupled microsphere cavity.
Physica A: Stat. Mech. its App.392, 2830 (2013).
43)Chang-shui Yu,X. X. Yi, He-shan Song and Heng Fan,
Entangling power in the deterministic quantum computation with one qubit.
Phys. Rev. A87, 022322 (2013).
42)Chang-shui Yu, Jia-sen Jin, Heng Fan and He-shan Song,
Dual roles of quantum discord in the robust and non-demolition probing.
Phys. Rev. A87, 022113 (2013).
41)Chang-shui Yu,Jun Zhang and Heng Fan,
Quantum dissonance is rejected in a scheme of quantum overlap measurement.
Phys. Rev. A82, 052317 (2012).
40)Zhen-ni Li,Chang-shui Yu,
Probing Bell Diagonal State without Disturbing its correlations.
Comm. in Theo. phys.58, 47 (2012).
39) Shaoxiong Wu,Chang-shui Yu,
Localized quadripartite entanglement.
Phys. Rev. A85, 032332 (2012).
38)Jia-sen Jin,Chang-shui Yu, andHe-shan Song,
Measurable geometric quantum discord.
J. Phys. A: Gen. Maths.45,115308 (2012).
37)Chang-shui Yu, andHaiqing Zhao,
Direct Measure of quantum correlation.
Phys. Rev. A84,062123(2011).
36)Jia-sen Jin,Chang-shui Yu, and He-shan Song,
Nondestructive identification of the Bell diagonal state.
Phys. Rev. A83,032109(2011).
35)Zhen-ni Li, Jia-sen Jin,Chang-shui Yu,
Probing quantum entanglement, quantum discord, classical correlation, and the quantum state without
disturbing them.
Phys. Rev. A83,012317(2011).
34)Jia-sen Jin,Chang-shui Yu, Pei Pei, and He-shan Song,
Quantum nondemolition measurement of the Werner state.
Phys. Rev. A82,042112(2010).
33)Jia-sen Jin,Chang-shui Yu, Pei Pei, and He-shan Song,
Quantum discord induced by white noises.
J.Opt.Soc. Am. B-Opt. Phys.27(9),1799(2010).
32)Kai-hua Ma,Chang-shui Yu, and He-shan Song,
A tight bound on negativity of superpositions.
Eur. Phys. J. D59(2), 317 (2010).
31)Jia-sen Jin,Chang-shui Yu, Pei Pei, and He-shan Song,
Positive effect of scattering strength of a microtoroidal cavity on atomic entanglement evolution.
Phys. Rev. A81,042309(2010).
30)Chang-shui Yu, Kai-hua Ma, He-shan Song,
Observable Estimation of Bipartite Mixed-state Entanglement.
Eur. Phys. J. D.56(3),431(2010).
29)Chang-shui Yuand He-shan Song,
Bipartite concurrence and localized coherence.
Phys. Rev. A80,022324(2009).
28)Chang-shui Yuand He-shan Song,
Describing a quantum channel by state tomography of a single probe state.
Europhysics Letters86(4),40007 (2009).
27)Jin JS,Yu CS, Song HS,
Scheme for state-independent teleportation between two distant atoms.
Int. J. Quant. Inf.7(4),821(2009).
26)Chang-shui Yuand He-shan Song,
Monogamy and entanglement in tripartite quantum states.
Phys. Letts. A373(7),727(2009).
25)Chang-shui Yu, X. X. Yi, and He-shan Song,
Evolution of entanglement for quantum mixed states.
Phys. Rev. A78, 062330 (2008).
24)Wang XG,YuCS, Yi XX,
An alternative quantum fidelity for mixed states of qudits.
Phys. Letts. A373(1),58 (2008).
23)Chang-shui Yu, X. X. Yi and He-shan Song,
Bounds on bipartitely shared entanglement reduced from superposed tripartite quantum states.
Eur. Phys. J. D49, 273(2008).
22)Chang-shui Yu, H. T. Cui and He-shan Song,
Genuine tripartite entanglement and quantum phase transition.
Chinese Physics17(8), 2795(2008).
21)Chang-shui Yu, X. X. Yi, He-shan Song and D. Mei,
Preparation of a stable and maximally entangled state of two distant qutrits trapped in separate cavities.
Eur. Phys. J. D.48 (3), 411(2008).
20) Yahong Wang, He-shan Song andChang-shui Yu,
Faithful Controlled Teleportation of an Arbitrary Unknown Two-Atom State via Special W-States and QED Cavity.
Communication of Theoretical Physics,45(9): 1199(2008).
19)Chang-shui Yuand He-shan Song,
Entanglement monogamy of tripartite quantum states.
Phys. Rev. A77,032329(2008).
18)Chang-shui Yu, L. Zhou and He-shan Song,
Genuine tripartite entanglement monotone of (2X2Xn) -dimensional systems.
Phys. Rev. A77,022313(2008).
17)Chang-shui Yu, C. Li and He-shan Song,
Measurable concurrence of mixed states.
Phys. Rev. A77,012305(2008).
16)Chang-shui Yuand He-shan Song,
Measurable entanglement for tripartite quantum pure states.
Phys. Rev. A76,022324(2007).
15)Chang-shui Yu, He-shan Song and Ya-hong Wang,
Genuine tripartite entanglement semi-monotone for (2 x 2 x n)-dimensional systems.
Quantum information and computation, 7 (7), 584 (2007).
14)Chang-shui Yu, Ya-hong Wang and He-shan Song,
Teleportations of mixed states and multipartite quantum states,
Communications in Theoretical Physics,47(6),1041 (2007).
13)Chang-shui Yu, X. X. Yi, He-shan Song, et al,
Robust preparation of Greenberger-Horne -Zeilinger and W states of three distant atoms.
Phys. Rev. A75, 044301 (2007).
12)Chang-shui Yuand He-shan Song,
Full separability criterion for tripartite quantum systems.
Eur.Phys.J.D.42,147 (2007).
11)Chang-shui Yu, X. X. Yi and He-shan Song,
Concurrence of Superpositions.
Phys. Rev. A. 75,022332(2007).
10) WANG Ya-Hong,YU Chang-Shui, and SONG He-Shan,
Teleportation of an Arbitrary Multipartite GHZ-Class State by One EPR Pair.
Chinese Physics Letters, 23 (12), 3142 (2006).
9) CHEN Jing,YU Chang-Shui, and SONG He-Shan,
Elementary Quantum Gates Based on Intrinsic Interaction Hamiltonian.
Communications in Theoretical Physics, 46(1),69 (2006).
8)Chang-shui Yuand He-shan Song,
Existence Criterion of Genuine Tripartite Entanglement.
Phys. Rev. A73,032322 (2006).
7)Chang-shui Yuand He-shan Song,
Global Entanglement for Multipartite Quantum States.
Phys. Rev. A73,022325 (2006).
6)Chang-shui Yu, He-shan Song and Ya-hong Wang,
Remote Preparation of a Qudit Using Maximally Entangled States of Qubits.
Phys. Rev. A73, 022340 (2006).
5)Chang-shui Yuand He-shan Song,
Separability criterion of Tripartite Qubit Systems.
Phys. Rev. A72, 022333 (2005).
4)Chang-shui Yuand He-shan Song,
Multipartite Entanglement Measure.
Phys. Rev. A71,042331 (2005).
3)Chang-shui Yuand He-shan Song,
Generalization of Concurrence Vectors.
Phys. Letts. A333, 364 (2004).
2)Chang-shui Yuand He-shan Song,
Free Entanglement Measure of Multiparticle systems.
Phys. Letts. A330,377 (2004).
1) X. X. Yi,Chang-shui Yu, L. Zhou and He-shan Song,
Noise-assisted preparation of entangled atoms.
Phys. Rev. A, 68,052304 (2003).
Note:
5)- 8),11),13),16)-19),25), 29)
were selected for the issues ofVirtual Journal of Quantum Information.
16),17),29) were selected for the issue ofVirtual Journal of Nanoscale Science & Technology.
论文成果 More>>
Shao, Ting-ting,Li, Dong-mo,Yu, Chang-shui.The bounds of Fisher information induced by the superposed input states[J],QUANTUM INFORMATION PROCESSING,2020,19(1)
Zhang, Jun,Han, Yan,Yu, Chang-shui.Complementarity relations of the measurement-induced average total coherence[J],PHYSICA SCRIPTA,2019,94(2)
Wu, Shao-xiong,Yu, Chang-shui.Quantum speed limit for a mixed initial state[J],PHYSICAL REVIEW A,2018,98(4)
Sohail, Amjad,Zhang, Yang,Bary, Ghulam,Yu, Chang Shui.Tunable Optomechanically Induced Transparency and Fano Resonance in Optomechanical System with Levitated Nanosphere[J],INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS,2018,57(9):2814-2827
Liu, Tong,Guo, Bao-Qing,Zhang, Yang,Yu, Chang-Shui,Zhang, Wei-Ning.One-step implementation of a multi-target-qubit controlled phase gate in a multi-resonator circuit QED system[J],QUANTUM INFORMATION PROCESSING,2018,17(9)
Guo, Bao-qing,Liu, Tong,Yu, Chang-shui.Quantum thermal transistor based on qubit-qutrit coupling[J],PHYSICAL REVIEW E,2018,98(2):022118
专利
暂无内容
著作成果
量子力学
科研项目 More>>
量子相干性的资源理论及相关问题研究, 国家自然科学基金项目, 2017/08/17, 进行
纠缠度量及其在信息技术中的应用, 省、市、自治区科技项目, 2008/01/01-2010/12/31, 完成
量子关联的性质及其在量子信息处理过程中的作用, 国家自然科学基金项目, 2013/09/25-2017/12/31, 完成
纠缠度量的相关理论研究, 国家自然科学基金项目, 2008/09/25-2011/12/31, 完成
多体量子态的可分性和纠缠度量, 国家自然科学基金项目, 2007/09/25-2008/12/01, 完成
大连理工大学理论物理学术交流与人才培养平台建设, 国家自然科学基金项目, 2018/12/05, 进行
基本信息Personal Information
教授博士生导师
硕士生导师
主要任职:物理学院副院长
其他任职:副院长
性别:男
毕业院校:大连理工大学
学位:博士
在职信息:在职
所在单位:物理学院
学科:理论物理
电子邮箱:
扫描关注
同专业博导同专业硕导个人学术主页
研究领域
当前位置: 中文主页 >> 科学研究 >> 研究领域93)Bao-qing Guo, Tong Liu, andChang-shui Yu
Quantum thermal transistor based on the qubit-qutrit coupling
Phys.Rev.E98022118(2018).
92)Tong Liu, Bao-Qing Guo, Yang Zhang, andChang-shui Yu
One-step implementation of a multi-target-qubit controlled phase gate in a multi-resonator circuit QED
System.
Quant. Inf. Proc.17, 240(2018).
91)Sohaih Shah, Yang Zhang, G. Bari,Chang-shui Yu
Tunable OMIT and Fano resonances in the optomechanical system with levitated nano-particle
IJTP57(9):2814 (2018).
90)Yang Zhang, Tong Liu, Shao-xiong Wu,Chang-shui Yu
Optical response mediated by a two level system in the hybrid Optomechanical system.
Quant. Inf. Proc.17, 209(2018).
89)Jiasen Jin, andChang-shui Yu
Non-Markovianity in a collision model with environmental block
New J. Phys.20,053026(2018)
88)Li-qiang Zhang, Ting-ting Ma,Chang-shui Yu
Measurement-induced non-locality in terms of the inverse approximate joint diagonalization .
Phys. Rev. A97,032112 (2018).
87)Tong Liu, Bao-qing Guo,Chang-shui Yu,Wei-Ning Zhang
One-step implementation of a hybrid Fredkin gate with quantum memories and single superconducting. qubit in circuit QED and its applications.
Opt. Exp.26,4498 (2018).
86)Shaoxiong Wu, Yang Zhang,Chang-shui Yu
Local quantum uncertainty guarantees the measurement precision for two coupled two-level systems in
non-Markovian environment.
Annals of Phys.39071 (2018).
85)Haiqing Zhao,Chang-shui Yu
Remedying the strong monotonicity of the coherence measure in terms of the Tsallis relativity $\alpha$ entropy.
Sci. Rep.8, 299 (2018).
84)Si-ren Yang,Chang-shui Yu
Operational resource theory of total coherence.
Annal of Physics388, 305 (2018).
83)X. L. Zhao, Z. C. Shi,Chang-shui Yu, X. X. Yi,
Influence of localization transition on dynamical properties for an extended Aubry-Andre-Harper model
J. Phys. B-Atom Mol. Opt. Phys.50, 235503 (2017).
82)Zi-chen He, Xin-yun Huang,Chang-shui Yu
Enabling the self-contained refrigerator to work beyond its limits by filtering the reservoirs.
Phys. Rev. E96, 052126 (2017).
81)Tong Liu, Chui-ping Yang, Yang Zhang,Chang-shui Yu,Wei-ning Zhang,
Circuit QED: Cross-Kerr-effect induced by a superconducting qutrit without classical pulses.
Quant. Inf. Proc.16, 209 (2017).
80) X. L. Zhao, Z. C. Shi,Chang-shui Yu, X. X. Yi,
Effect of loss on the topological features of dimer chains described by the extended Aubry-Andre-
Harper model.
Phys. Rev. A95, 02337 (2017).
79)Sohail Shah, Yang Zhang,Muhammad Usman,Chang-shui Yu,
Controllable optomechanically induced transparency in coupled optomechanical systems.
Euro. Phys. J. D71,103 (2017).
78)Chang-shui Yu,
Quantum coherence via skew information and its polygamy.
Phys. Rev. A95, 042337 (2017).
77) Tong Liu,Chang-shui Yu,Wei-ning Zhang,
Deterministic transfer of an unknown qutrit state assisted by the low- Q microwave resonators
Phys. Letts. A381, 1727 (2017).
76)Jun Zhang, Si-ren Yang,Yang Zhang,Chang-shui Yu,
The classical correlation limits the ability of measurement-induced average coherence.
Sci. Rep.7, 45598 (2017).
75)Jun Zhang, Yang Zhang,Chang-shui Yu,
Strongeruncertaintyrelationswithimprovableupperandlowerbounds.Quant. Inf. Proc.16, 131 (2017).
74)Shao-xiong Wu,Chang-shui Yu,
The Precision of Parameter estimation for dephasing model under squeezed reservoir.
Int. J. Quant. Inf.56, 1198 (2017).
73)Yang Zhang, SohailShah,Chang-shui Yu,
Perfect photon absorption in hybrid atom-optomechanical system.
Europhys. Lett.115, 64002 (2016).
72)Yang Zhang, Jun Zhang,Chang-shui Yu,
Optimal photon blockade on the maximal atomic coherence.
Int. J. Theor. Phys55, 5239 (2016).
71)Chang-shui Yu, Ting-ting Shao, Dong-mo Li,
Distribution of standard deviation of an observable among superposed states.
Annals of Physics373, 43 (2016).
70)Chang-shui Yu,Si-ren Yang and Bao-qing Guo,
Total quantum coherence and its applications.
Quant. Inf. Proc.15, 3773 (2016).
69)Sohail Shah, Yang Zhang, Jun Zhang,Chang-shui Yu,
Optomechanically induced transparency in multi-cavity optomechanical system with and without one two-level atom.
Scientific Reports6, 28830 (2016).
68)Jun Zhang, Yang Zhang,Chang-shui Yu,
The measurement-disturbance relation and the disturbance trade-off relation in terms of relative entropy.
Int. J. Theor. Phys55, 3949 (2016).
67)Yang Zhang, Jun Zhang,Chang-shui Yu,
Photon statistics on the extreme entanglement.
Scientific Reports6, 24098 (2016).
66)Chang-shui Yu, Bao-qing Guo, Si-ren Yang,
Measurable genuine tripartite entanglement of (2*2*n)- dimensional quantum states via only two-fold copies.
Phys. Rev. A93, 042304 (2016).
65) Shaoxiong Wu, Jun Zhang,Chang-shui Yu, He-shan Song,
Weak measurements destroy too much quantum correlation.
Int. J. Theor. Phys.55(1), 62 (2016).
64)Yang Zhang,Jun Zhang,Chang-shui Yu,
Multistability in the coupled semiconductor microcavities.
Int. J. Quant. Inf.13(7), ** (2015).
63)Yang Zhang,Jun Zhang,Chang-shui Yu,
Center-of-mass motion induced photon blockade.
Annals of Physics361, 563(2015).
62) Jun Zhang, Yang Zhang,Chang-shui Yu,
Entropy uncertainty relationwith multiplemeasurementsin the presence of memory.
Scientific Reports5,11701(2015).
61)Shao-xiong Wu,Chang-shui Yuand He-shan Song,
Effects of the reservoir squeezing on the precision of parameter estimation.
Phys. Lett. A379(18-19), 1228(2015).
60)Yahong Wang,Chang-shui Yu,
Minimum remote state preparation of an arbitrary two-level one-atom state via cavity QED.
Int. J. Quant. Inf.13(2), **(2015).
59)Jun Zhang, Shaoxiong WuandChang-shui Yu, Xiaoguang Wang,
Analytic Symmetric Information-theoretical Discord for One Class of Two-qubit States.
Int. J. Quant. Inf.13(1), **(2015).
58) Jun Zhang, Yang Zhang,Chang-shui Yu,
Renyi entropy uncertainty relation for successive projective measurements.
Quant. Inf. Proc.14, 2239 (2015).
57) Lin Wang,Chang-shui Yu,
Heat current and quantum correlation subject to squeezing reservoirs.
Int. J. Theor. Phys.54 (8),2942 (2015).
56)Shao-xiong Wu, YangZhang,Chang-shui Yuand He-shan Song,
Initial-state dependence in quantum speed limit.
J. Phys. A:Gen. Maths.48,045301(2015).
55)Jun Zhang, Yang Zhang,Chang-shui Yu,
The role ofquantum correlation in the quantum cloning.
Euro. Phys. J. D68,365(2014).
54)Chang-shui Yu, Qi-yao Zhu,
Re-examinaing the self-contained refrigerator in the strong coupling regime.
Phys.Rev.E90,052142 (2014).
53)Jun Zhang, Shaoxiong Wu,Chang-shui Yu,
Quantum correlation cost of the weak measurement.
Annals of Physics.351,104 (2014).
52)Chang-shui Yu, Shaoxiong Wu, Xiaoguang Wang, X. X. Yi and He-shan Song,
Quantum correlation measure in arbitrary bipartite systems.
Europhysics. Lett.107, 10007 (2014).
51)Chang-shui Yu, Yang Zhang and Haiqing Zhao,
Quantum correlation via coherence.
Quant. Inf. Proc.13(6), 1437 (2014).
50) Shaoxiong Wu, Jun Zhang,Chang-shui Yu, He-shanSong,
Measurement induced nonlocality based on skew information.
Phys. Lett. A.378 (4),344 (2014).
49) Lin Wang,Chang-shui Yu,
The role of a quantum channel on a quantum state.
Int. J. Theor. Phys.53 (2),715 (2014).
48)Chang-shui Yu, Bo Li andH. Fan,
Sudden changes of quantum correlation.
Quant. Inf. & Comp.14(5&6),0454 (2014).
47)Jun Zhang, Yang Zhang, Shaoxiong WuandChang-shui Yu,
Non-classicalities via local disturbance of unitary operations.
Euro. Phys. J. D.67, 217 (2013).
46)Zhenni Li,Chang-shui Yu, Shuxue Ding, and Zunyi Tang,
Nondestructive Probing Scheme of Quantum State without Quantum Correlation
Int. J. Theo. Phys.52, 3676 (2013).
45)Shao-xiong Wu, Jun Zhang,Chang-shui Yu, and He-shan Song,
Quantum correlation can improve the distillation efficiency.
Int. J. Quant. Inf.11, ** (2013).
44)Jia-sen Jin,Zhen-ni Li,Chang-shui Yu, andHe-shan Song,
Nondestructive detection of atomic Werner state with fiber-taper-coupled microsphere cavity.
Physica A: Stat. Mech. its App.392, 2830 (2013).
43)Chang-shui Yu,X. X. Yi, He-shan Song and Heng Fan,
Entangling power in the deterministic quantum computation with one qubit.
Phys. Rev. A87, 022322 (2013).
42)Chang-shui Yu, Jia-sen Jin, Heng Fan and He-shan Song,
Dual roles of quantum discord in the robust and non-demolition probing.
Phys. Rev. A87, 022113 (2013).
41)Chang-shui Yu,Jun Zhang and Heng Fan,
Quantum dissonance is rejected in a scheme of quantum overlap measurement.
Phys. Rev. A82, 052317 (2012).
40)Zhen-ni Li,Chang-shui Yu,
Probing Bell Diagonal State without Disturbing its correlations.
Comm. in Theo. phys.58, 47 (2012).
39) Shaoxiong Wu,Chang-shui Yu,
Localized quadripartite entanglement.
Phys. Rev. A85, 032332 (2012).
38)Jia-sen Jin,Chang-shui Yu, andHe-shan Song,
Measurable geometric quantum discord.
J. Phys. A: Gen. Maths.45,115308 (2012).
37)Chang-shui Yu, andHaiqing Zhao,
Direct Measure of quantum correlation.
Phys. Rev. A84,062123(2011).
36)Jia-sen Jin,Chang-shui Yu, and He-shan Song,
Nondestructive identification of the Bell diagonal state.
Phys. Rev. A83,032109(2011).
35)Zhen-ni Li, Jia-sen Jin,Chang-shui Yu,
Probing quantum entanglement, quantum discord, classical correlation, and the quantum state without
disturbing them.
Phys. Rev. A83,012317(2011).
34)Jia-sen Jin,Chang-shui Yu, Pei Pei, and He-shan Song,
Quantum nondemolition measurement of the Werner state.
Phys. Rev. A82,042112(2010).
33)Jia-sen Jin,Chang-shui Yu, Pei Pei, and He-shan Song,
Quantum discord induced by white noises.
J.Opt.Soc. Am. B-Opt. Phys.27(9),1799(2010).
32)Kai-hua Ma,Chang-shui Yu, and He-shan Song,
A tight bound on negativity of superpositions.
Eur. Phys. J. D59(2), 317 (2010).
31)Jia-sen Jin,Chang-shui Yu, Pei Pei, and He-shan Song,
Positive effect of scattering strength of a microtoroidal cavity on atomic entanglement evolution.
Phys. Rev. A81,042309(2010).
30)Chang-shui Yu, Kai-hua Ma, He-shan Song,
Observable Estimation of Bipartite Mixed-state Entanglement.
Eur. Phys. J. D.56(3),431(2010).
29)Chang-shui Yuand He-shan Song,
Bipartite concurrence and localized coherence.
Phys. Rev. A80,022324(2009).
28)Chang-shui Yuand He-shan Song,
Describing a quantum channel by state tomography of a single probe state.
Europhysics Letters86(4),40007 (2009).
27)Jin JS,Yu CS, Song HS,
Scheme for state-independent teleportation between two distant atoms.
Int. J. Quant. Inf.7(4),821(2009).
26)Chang-shui Yuand He-shan Song,
Monogamy and entanglement in tripartite quantum states.
Phys. Letts. A373(7),727(2009).
25)Chang-shui Yu, X. X. Yi, and He-shan Song,
Evolution of entanglement for quantum mixed states.
Phys. Rev. A78, 062330 (2008).
24)Wang XG,YuCS, Yi XX,
An alternative quantum fidelity for mixed states of qudits.
Phys. Letts. A373(1),58 (2008).
23)Chang-shui Yu, X. X. Yi and He-shan Song,
Bounds on bipartitely shared entanglement reduced from superposed tripartite quantum states.
Eur. Phys. J. D49, 273(2008).
22)Chang-shui Yu, H. T. Cui and He-shan Song,
Genuine tripartite entanglement and quantum phase transition.
Chinese Physics17(8), 2795(2008).
21)Chang-shui Yu, X. X. Yi, He-shan Song and D. Mei,
Preparation of a stable and maximally entangled state of two distant qutrits trapped in separate cavities.
Eur. Phys. J. D.48 (3), 411(2008).
20) Yahong Wang, He-shan Song andChang-shui Yu,
Faithful Controlled Teleportation of an Arbitrary Unknown Two-Atom State via Special W-States and QED Cavity.
Communication of Theoretical Physics,45(9): 1199(2008).
19)Chang-shui Yuand He-shan Song,
Entanglement monogamy of tripartite quantum states.
Phys. Rev. A77,032329(2008).
18)Chang-shui Yu, L. Zhou and He-shan Song,
Genuine tripartite entanglement monotone of (2X2Xn) -dimensional systems.
Phys. Rev. A77,022313(2008).
17)Chang-shui Yu, C. Li and He-shan Song,
Measurable concurrence of mixed states.
Phys. Rev. A77,012305(2008).
16)Chang-shui Yuand He-shan Song,
Measurable entanglement for tripartite quantum pure states.
Phys. Rev. A76,022324(2007).
15)Chang-shui Yu, He-shan Song and Ya-hong Wang,
Genuine tripartite entanglement semi-monotone for (2 x 2 x n)-dimensional systems.
Quantum information and computation, 7 (7), 584 (2007).
14)Chang-shui Yu, Ya-hong Wang and He-shan Song,
Teleportations of mixed states and multipartite quantum states,
Communications in Theoretical Physics,47(6),1041 (2007).
13)Chang-shui Yu, X. X. Yi, He-shan Song, et al,
Robust preparation of Greenberger-Horne -Zeilinger and W states of three distant atoms.
Phys. Rev. A75, 044301 (2007).
12)Chang-shui Yuand He-shan Song,
Full separability criterion for tripartite quantum systems.
Eur.Phys.J.D.42,147 (2007).
11)Chang-shui Yu, X. X. Yi and He-shan Song,
Concurrence of Superpositions.
Phys. Rev. A. 75,022332(2007).
10) WANG Ya-Hong,YU Chang-Shui, and SONG He-Shan,
Teleportation of an Arbitrary Multipartite GHZ-Class State by One EPR Pair.
Chinese Physics Letters, 23 (12), 3142 (2006).
9) CHEN Jing,YU Chang-Shui, and SONG He-Shan,
Elementary Quantum Gates Based on Intrinsic Interaction Hamiltonian.
Communications in Theoretical Physics, 46(1),69 (2006).
8)Chang-shui Yuand He-shan Song,
Existence Criterion of Genuine Tripartite Entanglement.
Phys. Rev. A73,032322 (2006).
7)Chang-shui Yuand He-shan Song,
Global Entanglement for Multipartite Quantum States.
Phys. Rev. A73,022325 (2006).
6)Chang-shui Yu, He-shan Song and Ya-hong Wang,
Remote Preparation of a Qudit Using Maximally Entangled States of Qubits.
Phys. Rev. A73, 022340 (2006).
5)Chang-shui Yuand He-shan Song,
Separability criterion of Tripartite Qubit Systems.
Phys. Rev. A72, 022333 (2005).
4)Chang-shui Yuand He-shan Song,
Multipartite Entanglement Measure.
Phys. Rev. A71,042331 (2005).
3)Chang-shui Yuand He-shan Song,
Generalization of Concurrence Vectors.
Phys. Letts. A333, 364 (2004).
2)Chang-shui Yuand He-shan Song,
Free Entanglement Measure of Multiparticle systems.
Phys. Letts. A330,377 (2004).
1) X. X. Yi,Chang-shui Yu, L. Zhou and He-shan Song,
Noise-assisted preparation of entangled atoms.
Phys. Rev. A, 68,052304 (2003).
Note:
5)- 8),11),13),16)-19),25), 29)
were selected for the issues ofVirtual Journal of Quantum Information.
16),17),29) were selected for the issue ofVirtual Journal of Nanoscale Science & Technology.
基本信息Personal Information
教授博士生导师
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主要任职:物理学院副院长
其他任职:副院长
性别:男
毕业院校:大连理工大学
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论文成果
当前位置: 中文主页 >> 科学研究 >> 论文成果[1]Shao, Ting-ting,Li, Dong-mo,Yu, Chang-shui.The bounds of Fisher information induced by the superposed input states[J],QUANTUM INFORMATION PROCESSING,2020,19(1)
[2]Zhang, Jun,Han, Yan,Yu, Chang-shui.Complementarity relations of the measurement-induced average total coherence[J],PHYSICA SCRIPTA,2019,94(2)
[3]Wu, Shao-xiong,Yu, Chang-shui.Quantum speed limit for a mixed initial state[J],PHYSICAL REVIEW A,2018,98(4)
[4]Sohail, Amjad,Zhang, Yang,Bary, Ghulam,Yu, Chang Shui.Tunable Optomechanically Induced Transparency and Fano Resonance in Optomechanical System with Levitated Nanosphere[J],INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS,2018,57(9):2814-2827
[5]Liu, Tong,Guo, Bao-Qing,Zhang, Yang,Yu, Chang-Shui,Zhang, Wei-Ning.One-step implementation of a multi-target-qubit controlled phase gate in a multi-resonator circuit QED system[J],QUANTUM INFORMATION PROCESSING,2018,17(9)
[6]Guo, Bao-qing,Liu, Tong,Yu, Chang-shui.Quantum thermal transistor based on qubit-qutrit coupling[J],PHYSICAL REVIEW E,2018,98(2):022118
[7]Zhang, Yang,Liu, Tong,Wu, Shao-xiong,Yu, Chang-shui.Optical response mediated by a two-level system in the hybrid optomechanical system[J],QUANTUM INFORMATION PROCESSING,2018,17(8)
[8]Jin, Jiasen,Yu, Chang-shui.Non-Markovianity in the collision model with environmental block[J],NEW JOURNAL OF PHYSICS,2018,20
[9]Zhang, Li-qiang,Ma, Ting-ting,Yu, Chang-shui.Measurement-induced nonlocality in arbitrary dimensions in terms of the inverse approximate joint diagonalization[J],PHYSICAL REVIEW A,2018,97(3)
[10]Wu, Shao-xiong,Zhang, Yang,Yu, Chang-shui.Local quantum uncertainty guarantees the measurement precision for two coupled two-level systems in non-Markovian environment[J],ANNALS OF PHYSICS,2018,390:71-82
[11]Liu, Tong,Guo, Bao-Qing,Yu, Chang-Shui,Zhang, Wei-Ning.One-step implementation of a hybrid Fredkin gate with quantum memories and single superconducting qubit in circuit QED and its applications[J],OPTICS EXPRESS,2018,26(4):4498-4511
[12]Zhao, Haiqing,Yu, Chang-shui.Coherence measure in terms of the Tsallis relative alpha entropy[J],SCIENTIFIC REPORTS,2018,8(1):299
[13]Yang, Si-ren,Yu, Chang-shui.Operational resource theory of total quantum coherence[J],ANNALS OF PHYSICS,2018,388:305-314
[14]Zhao, X. L.,Shi, Z. C.,Yu, C. S.,Yi, X. X..Influence of localization transition on dynamical properties for an extended Aubry- Andre-Harper model[J],JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS,2017,50(23)
[15]He, Zi-chen,Huang, Xin-yun,Yu, Chang-shui.Enabling the self-contained refrigerator to work beyond its limits by filtering the reservoirs[J],PHYSICAL REVIEW E,2017,96(5):052126
[16]Liu, Tong,Zhang, Yang,Guo, Bao-Qing,Yu, Chang-Shui,Zhang, Wei-Ning.Circuit QED: cross-Kerr effect induced by a superconducting qutrit without classical pulses[J],QUANTUM INFORMATION PROCESSING,2017,16(9)
[17]Liu, Tong,Zhang, Yang,Yu, Chang-Shui,Zhang, Wei-Ning.Deterministic transfer of an unknown qutrit state assisted by the low- Q microwave resonators[J],PHYSICS LETTERS A,2017,381(20):1727-1731
[18]Zhang, Jun,Zhang, Yang,Yu, Chang-shui.Stronger uncertainty relations with improvable upper and lower bounds[J],QUANTUM INFORMATION PROCESSING,2017,16(5)
[19]Sohail, Amjad,Zhang, Yang,Usman, Muhammad,Yu, Chang-shui.Controllable optomechanically induced transparency in coupled optomechanical systems[J],EUROPEAN PHYSICAL JOURNAL D,2017,71(4)
[20]Yu, Chang-shui.Quantum coherence via skew information and its polygamy[J],PHYSICAL REVIEW A,2017,95(4)
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教授博士生导师
硕士生导师
主要任职:物理学院副院长
其他任职:副院长
性别:男
毕业院校:大连理工大学
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基本信息Personal Information
教授博士生导师
硕士生导师
主要任职:物理学院副院长
其他任职:副院长
性别:男
毕业院校:大连理工大学
学位:博士
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当前位置: 中文主页 >> 科学研究 >> 著作成果量子力学
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基本信息Personal Information
教授博士生导师
硕士生导师
主要任职:物理学院副院长
其他任职:副院长
性别:男
毕业院校:大连理工大学
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当前位置: 中文主页 >> 科学研究 >> 科研项目量子相干性的资源理论及相关问题研究, 国家自然科学基金, 2017/08/17, 进行
纠缠度量及其在信息技术中的应用, 辽宁省博士科研启动基金, 2008/01/01-2010/12/31, 完成
量子关联的性质及其在量子信息处理过程中的作用, 国家自然科学基金, 2013/09/25-2017/12/31, 完成
纠缠度量的相关理论研究, 国家自然科学基金, 2008/09/25-2011/12/31, 完成
多体量子态的可分性和纠缠度量, 国家自然科学基金, 2007/09/25-2008/12/01, 完成
大连理工大学理论物理学术交流与人才培养平台建设, 国家自然科学基金, 2018/12/05, 进行
大连理工大学理论物理学术交流与人才培养平台建设, 国家自然科学基金, 2017/12/15, 完成
非平衡条件下耦合腔系统的动力学, 辽宁省自然科学基金, 2015/08/26-2017/12/30, 完成
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