个人信息Personal Information
教授
博士生导师
硕士生导师
主要任职:物理学院党委书记
其他任职:无
性别:男
毕业院校:大连理工大学
学位:博士
所在单位:物理学院
学科:理论物理
办公地点:313
-
144)Zhang Y.; Ma Y.-B.; Zhu H. W.; Yu C.-S..
The nonreciprocal optical bistability and nonreciprocal photon transmission in hybrid atom-optomechanical system
J. Phys. B 57(8), 085502 (2024).
143) Zheng Liu,Ting-ting Ma, Yu-qiang Liu, Chang-shui Yu*
Weak force sensing based on parametric amplification and auxiliary oscillator
Phys. Rev. A 109, 023709 (2024).
142) Yi-jia Yang, Yu-qiang Liu, Chang-shui Yu*
Quantum heat diode versus light emission in circuit quantum electrodynamical system
Phys. Rev. E 109, 014142 (2024).
141)Zhang Y.; Ma Y.-B.; Niu P.-B.; Yu C.-S..
The nonreciprocal optical bistability and nonreciprocal photon transmission in hybrid atom-optomechanical system
European Phys. J. Plus, 139 , 47 (2024)
140)Shao-Xiong Wu*, Cheng-Hua Bai, Gang Li, Chang-shui Yu*, Tiancai Zhang*
Quantum squeezing induce014d quantum entanglement and EPR steering in coupled optomechanical system
Opt. Express, 32, 260-274 (2024)
139) Yu-qiang Liu, Yi-jia Yang, Ting-ting Ma, Chang-shui Yu*
Quantum heat valve and diode of strongly coupled defects in amorphous material
Phys. Rev. E 99, 064125 (2024).
138) Zi-yi Mai , Chang-shui Yu*
Tight and attainable quantum speed limit for open systems
Phys.Rev. A 108, 052207 (2023).
137) Xue-chen GAO, X. J. WU, C.H. BAI, S.X. WU* and Chang-shui Yu*
Photon blockade with a trapped Λ-type three-level atom in asymmetrical cavity
Optics Express 31(22), 36796-36809 (2023).
136) S.X. WU*, C.H. BAI, G. LI, Chang-shui Yu*, and T. C. ZHANG*
Enhancing the quantum entanglement and EPR steering of a coupled optomechanical system with a. squeezed vacuum field
J. Opt. Soc. Am. B 40 (11): 2885 (2023).
135) Yu-qiang Liu, Yi-jia Yang, Chang-shui Yu*
Quantum heat valve and entanglement in superconducting LC resonators
App.Phys.Lett. 123, 144002 (2023).
134) Y.J. Ma, X. C. Cao, S. X. Wu*, and Chang-shui Yu*
Quantum speed limit of a single atom in a squeezed optical cavity mode
Chin. Phys. B 32, 040308 (2023) .
133) Ting-ting Ma, Yu-qiang Liu, Chang-shui Yu*
Release of virtual photon and phonon pairs from qubit-plasmon-phonon ultrastrong coupling system
Optics Express 31, 064125 (2023).
132) Yi-jia Yang, Yu-qiang Liu, Chang-shui Yu*
Quantum heat diode versus light emission in circuit quantum electrodynamical system
Phys. Rev. E 99, 064125 (2023).
131) Yu-qiang Liu, Yi-jia Yang, Chang-shui Yu*
Quantum heat diode versus light emission in circuit quantum electrodynamical system
Phys. Rev. E 97, 075102 (2023).
130) Si-ren Yang, Chang-shui Yu*
Quantifying Dynamical Total Coherence in a Resource Non-increasing Framework
Chin. Phys. B 32, 040305 (2023) .
129) Deng-hui Yu, Chang-shui Yu*
Quantifying Coherence in terms of Fisher information
Phys. Rev. A 106, 052432 (2022) .
128) Si-ren Yang, Chang-shui Yu*
Quantifying Dynamical Total Coherence in a Resource Non-increasing Framework
Quant. Inf. Proc. 22, 30 (2022) .
127) Yi-jia Yang, Yu-qiang Liu, Chang-shui Yu*
Heat transfer in transversely coupled qubits: Optically controlled thermal modulator with common. reservoirs.
J. Phys. A: Math. Theor. 55, 395303 (2022).
126) Nan-nan Zhou, Li-qiang Zhang, Chang-shui Yu*
Mechanically controllable nonreciprocal transmission and perfect absorption of photons
Opt. Exp. 30, 24431(2022).
125) Bao-qing Guo, Nan-nan Zhou, C.P. Yang*, Chang-shui Yu*
Multifunctional quantum thermal device with initial-state dependence
PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES 142, 115275 (2022).
124) Amjad, Sohail, Ahmed Rizwan, Rida Zainab, Chang-shui Yu
Enhanced entanglement and quantum steering of directly and indirectly coupled modes in a. magnomechanical system
Phys. Scrip. 97, 075102 (2022).
123) A. Sohail, Ali, Hassan, Ahmed Rizwan, Chang-shui Yu
Generation of enhanced entanglement of directly and indirectly coupled modes in a two-cavity magnomechanical system
Quan. Inf. Proc. 21, 207 (2022).
122) Francesco Campaioli*, Chang-shui Yu*, Felix A. Pollock, Kavan Modi*
Resource speed limits: maximal rate of resource variation
New J. Phys. 24, 065001(2022).
121) Ting-ting Ma, D. B. Horoshko, Chang-shui Yu*, S. Y. Kilin
Photon and phonon statistics in a qubit-plasmon-phonon ultrastrong-coupling system
Phys. Rev. A 105, 053718(2022).
120) Zhang, J*, Wei, JN, Duan, ZB, He, K , Chang-shui Yu*
Uncertainty relation of successive measurements based on Wigner-Yanase skew information
COMMUNICATIONS IN THEORETICAL PHYSICS 74 (1) ,015101 (2022).
119) Yu-qiang Liu, Deng-hui Yu, Chang-shui Yu*
Boosting amplification effect of quantum thermal transistor with common environments
Entropy 24, 32(2022).
118) Li-qiang Zhang, Nan-nan Zhou, Chang-shui Yu*,
The Best Approximation of an Objective State With a Given Set of Quantum States
Annale der Physik 534(2), 2100407 (2021).
117) DMITRI B. HOROSHKO,* Chang-shui Yu, AND SERGEI YA. KILIN
Time-ordering effects in one-atom laser based on electromagnetically-induced transparency
J. Opt. Soc. Am. B 38 (10): 3088 (2021).
116) Kang-Ying Du,Ya-Jie Ma,Shao-Xiong Wu,and Chang-shui Yu*,
Quantum speed limit for the maximum coherent state under the squeezed environment
Chin. Phys. B 30 (9): 090308 (2021).
115) Yang Zhang, Yu-bo Ma, Yu Guo*, Chang-shui Yu*
Perfect photon absorption based on the optical parametric process
Chin. Phys. B 30, 064203 (2021).
114) Li-qiang Zhang, Chang-shui Yu
The optimal approximation of qubit states with limited quantum states
Phys. Letts. A. 398, 127286 (2021).
113) Li-qiang Zhang, Chang-shui Yu
The best approximation of a given qubit state with the limited pure-state set
Journal Physics A. 54, 085205 (2021).
112) Amjad Sohail, Rizwan Ahmed, Chang shui Yu
Switchable and Enhanced Absorption via Qubit-Mechanical Nonlinear Interaction in a Hybrid Optomechanical System
Int J Theor Phys https://doi.org/10.1007/s10773-020-04655-2
111) Jin-na Fan, Shao-xiong Wu*, Chang-shui Yu*
Quantum acceleration by an ancillary system in non-Markovian environments
Quant. Inf. Proc. 20, 9 (2021).
110) Deng-hui Yu, Chang-shui Yu*
Quantifying entanglement in terms of an operational way
Chin. Phys. B 30, 020302 (2021).
109) Amjad Sohail, M. Rana, S. Ikram, T. Munir, T. Hussain, R. Ahmed, Chang-shui Yu,
Enhancement of mechanical entanglement in hybrid optomechanical system
Quant. Inf. Proc. 19, 372 (2020).
108) Deng-hui Yu, Yu-qiang Liu, Chang-shui Yu*
Quantifying coherence in terms of the pure-state coherence
Phys. Rev. A 101, 062114 (2020).
107) Shao-xiong Wu*, Chang-shui Yu*,
Margolus-Levitin speed limit across quantum to classical regimes based on trace distance
Chinese Physics B 20, 050302 (2020).
106) Shao-xiong Wu*, Chang-shui Yu*,
Quantum speed limit based on the bound of Bures angle.
Scientific Reports 10, 5500 (2020).
105) Nan-nan Zhou, Bao-qing Guo, Chang-shui Yu*
Quantum versus classical: extremal photon statistics signal the extremal entanglement.
Journal Physics B 53, 155501 (2020).
104) Amjad Sohail, Rizwan Ahmed, Chang-shui Yu*, and Tariq Munir, Fakhar Alam
Tunable optical response of an optomechanical system with two mechanically driven resonators.
Physica Scripta 95, 045105(2020).
103) Amjad Sohail, Rizwan Ahmed, Chang-shui Yu, and Tariq Munir,
Enhanced entanglement induced by Coulomb interaction in coupled optomechanical systems.
Physica Scripta 95, 035108(2020).
102) Ting-ting Shao, Dong-mo Li, Chang-shui Yu*
The bound of quantum Fisher information induced by the superposition input states.
Quant. Inf. Proc. 19, 11(2020).
101) Deng-hui Yu, Yu-qiang Liu, Chang-shui Yu*
Effects of the Coherence on the Parameter Estimation in a Quantum Metrology Scheme with Driving Fields.
IJTP 59, 993 (2020)
100) Tong Liu, Yang Zhang, Bao-qing Guo, Chang-shui Yu, Wei-ning Zhang
Creation of superposition of arbitrary states encoded in two three-dimensional cavities
Opt. Exp. 27, 027168(2019).
99) Chang-shui Yu, Dong-mo Li, Nan-nan Zhou
Monogamy of finite dimensional entanglement induced by coherence.
Europhys. Lett. 125, 50001(2019)
98) Bao-qing Guo, Tong Liu, Chang-shui Yu
Multifunctional quantum thermal device utilizing three qubits
Phys. Rev. E 99, 032112 (2019)
97) Chang-shui Yu, Bao-qing Guo, Tong Liu
Quantum self-contained refrigerator in terms of the cavity quantum electrodynamics
Opt. Exp. 27, 4498 (2019).
96) Li-qiang Zhang, Si-ren Yang, Chang-shui Yu
Analytically computable of the symmetric quantum correlation.
Annale der Physik 531, 1800178 (2019).
95) Jun Zhang,Yan Han, and Chang-shui Yu
Complementarity relations of the measurement-induced average total coherence
Physica Scripta 94, 025102 (2019).
94) Shao-xiong Wu, Chang-shui Yu
Quantum speed limit for initial mixed state.
Phys. Rev. A 98, 042132 (2018).
93)Bao-qing Guo, Tong Liu, and Chang-shui Yu
Quantum thermal transistor based on the qubit-qutrit coupling
Phys. Rev. E 98, 022118 (2018).
92) Tong Liu, Bao-Qing Guo, Yang Zhang, and Chang-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
IJTP 57(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, and Chang-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. A 97, 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. 390 71 (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 Physics 388, 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. E 96, 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. A 95, 02337 (2017).
79) Sohail Shah, Yang Zhang, Muhammad Usman, Chang-shui Yu,
Controllable optomechanically induced transparency in coupled optomechanical systems.
Euro. Phys. J. D 71,103 (2017).
78) Chang-shui Yu,
Quantum coherence via skew information and its polygamy.
Phys. Rev. A 95, 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. A 381, 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,
Stronger uncertainty relations with improvable upper and lower bounds.
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, Sohail Shah, 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. Phys 55, 5239 (2016).
71) Chang-shui Yu, Ting-ting Shao, Dong-mo Li,
Distribution of standard deviation of an observable among superposed states.
Annals of Physics 373, 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 Reports 6, 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. Phys 55, 3949 (2016).
67) Yang Zhang, Jun Zhang, Chang-shui Yu,
Photon statistics on the extreme entanglement.
Scientific Reports 6, 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. A 93, 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), 1550053 (2015).
63) Yang Zhang, Jun Zhang, Chang-shui Yu,
Center-of-mass motion induced photon blockade.
Annals of Physics 361, 563(2015).
62) Jun Zhang, Yang Zhang, Chang-shui Yu,
Entropy uncertainty relation with multiple measurements in the presence of memory.
Scientific Reports 5,11701(2015).
61) Shao-xiong Wu, Chang-shui Yu and He-shan Song,
Effects of the reservoir squeezing on the precision of parameter estimation.
Phys. Lett. A 379 (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), 1550009(2015).
59) Jun Zhang, Shaoxiong Wu and Chang-shui Yu, Xiaoguang Wang,
Analytic Symmetric Information-theoretical Discord for One Class of Two-qubit States.
Int. J. Quant. Inf. 13 (1), 1550006(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, Yang Zhang, Chang-shui Yu and 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 of quantum correlation in the quantum cloning.
Euro. Phys. J. D 68, 365 (2014).
54) Chang-shui Yu, Qi-yao Zhu,
Re-examinaing the self-contained refrigerator in the strong coupling regime.
Phys.Rev.E 90, 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.
Euro physics. 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-shan Song,
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 and H. Fan,
Sudden changes of quantum correlation.
Quant. Inf. & Comp. 14(5&6),0454 (2014).
47) Jun Zhang, Yang Zhang, Shaoxiong Wu and Chang-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, 1350029 (2013).
44) Jia-sen Jin, Zhen-ni Li, Chang-shui Yu, and He-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. A 87, 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. A 87, 022113 (2013).
41) Chang-shui Yu, Jun Zhang and Heng Fan,
Quantum dissonance is rejected in a scheme of quantum overlap measurement.
Phys. Rev. A 82, 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. A 85, 032332 (2012).
38) Jia-sen Jin, Chang-shui Yu, and He-shan Song,
Measurable geometric quantum discord.
J. Phys. A: Gen. Maths. 45,115308 (2012).
37) Chang-shui Yu, and Haiqing Zhao,
Direct Measure of quantum correlation.
Phys. Rev. A 84, 062123 (2011).
36) Jia-sen Jin, Chang-shui Yu, and He-shan Song,
Nondestructive identification of the Bell diagonal state.
Phys. Rev. A 83, 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. A 83, 012317 (2011).
34) Jia-sen Jin, Chang-shui Yu, Pei Pei, and He-shan Song,
Quantum nondemolition measurement of the Werner state.
Phys. Rev. A 82, 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. D 59(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. A 81, 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 Yu and He-shan Song,
Bipartite concurrence and localized coherence.
Phys. Rev. A 80, 022324 (2009).
28) Chang-shui Yu and He-shan Song,
Describing a quantum channel by state tomography of a single probe state.
Europhysics Letters 86(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 Yu and He-shan Song,
Monogamy and entanglement in tripartite quantum states.
Phys. Letts. A 373(7), 727(2009).
25) Chang-shui Yu, X. X. Yi, and He-shan Song,
Evolution of entanglement for quantum mixed states.
Phys. Rev. A 78, 062330 (2008).
24) Wang XG, Yu CS, Yi XX,
An alternative quantum fidelity for mixed states of qudits.
Phys. Letts. A 373(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. D 49, 273 (2008).
22) Chang-shui Yu, H. T. Cui and He-shan Song,
Genuine tripartite entanglement and quantum phase transition.
Chinese Physics 17 (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 and Chang-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 Yu and He-shan Song,
Entanglement monogamy of tripartite quantum states.
Phys. Rev. A 77, 032329 (2008).
18) Chang-shui Yu, L. Zhou and He-shan Song,
Genuine tripartite entanglement monotone of (2X2Xn) -dimensional systems.
Phys. Rev. A 77, 022313 (2008).
17) Chang-shui Yu, C. Li and He-shan Song,
Measurable concurrence of mixed states.
Phys. Rev. A 77, 012305 (2008).
16)Chang-shui Yu and He-shan Song,
Measurable entanglement for tripartite quantum pure states.
Phys. Rev. A 76, 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. A 75, 044301 (2007).
12) Chang-shui Yu and 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 Yu and He-shan Song,
Existence Criterion of Genuine Tripartite Entanglement.
Phys. Rev. A 73, 032322 (2006).
7) Chang-shui Yu and He-shan Song,
Global Entanglement for Multipartite Quantum States.
Phys. Rev. A 73, 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. A 73, 022340 (2006).
5) Chang-shui Yu and He-shan Song,
Separability criterion of Tripartite Qubit Systems.
Phys. Rev. A 72, 022333 (2005).
4) Chang-shui Yu and He-shan Song,
Multipartite Entanglement Measure.
Phys. Rev. A 71, 042331 (2005).
3) Chang-shui Yu and He-shan Song,
Generalization of Concurrence Vectors.
Phys. Letts. A 333 , 364 (2004).
2) Chang-shui Yu and He-shan Song,
Free Entanglement Measure of Multiparticle systems.
Phys. Letts. A 330 ,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 of Virtual Journal of Quantum Information.
16),17),29) were selected for the issue of Virtual Journal of Nanoscale Science & Technology.
- 麦梓艺, 于长水.Quantum speed limit in terms of coherence variations[J],Physical Review A,2024,110(4)
- 张子晨, 于长水.Lamb Shift Breaks the Heat Current Limit[J],arXiv,2024
- 刘玉强, 杨祎嘉, Ma, Ting-ting, 于长水.Quantum heat valve and entanglement in superconducting LC resonators[J],Applied Physics Letters,2024,123(14)
- Gao, Xue-Chen, Wu, Xiao-Jie, Bai, Cheng-Hua, Shao-Xiong, 于长水.Photon blockade with a trapped Λ-type three-level atom in asymmetrical cavity[J],Optics Express,2024,31(22):36796-36809
- Zhang Jun, He Kan, Zhang Hao, 于长水.Quantum correlation enhanced bound of the information exclusion principle[J],CHINESE PHYSICS B,32(9)
- 杨祎嘉, 刘玉强, 于长水.Quantum thermal diode dominated by pure classical correlation via three triangular-coupled qubits.[J],Physical review. E,2024,107(6-1):064125
- 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, 2021/11/25-2023/03/31, 结题
- 量子资源理论及其在量子热力学系统中的作用研究, 国家自然科学基金项目, 2021/08/18, 进行
- 流动的物理实验室及科普进校园活动的开展与推广, 地、市、厅、局等政府部门项目, 2021/01/01-2023/12/25, 结题
- 量子资源理论及其在量子热力学系统中的作用研究, 国家自然科学基金项目, 2021/08/18, 在研
- 大连理工大学-白俄罗斯国立大学科研创新中心, 省、市、自治区科技项目, 2020/04/01-2023/09/13, 结题
- 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, 2020/12/02-2022/04/18, 结题