Publications

Published Papers from Center Members 


2019

 

       De-Chang Dai:    

      (1) De-Chang Dai, DejanStojkovic, “Observing a Wormhole”, Phys. Rev. D, 100 (2019)  083513.

      (2) De-Chang Dai, “State of a Particle Pair-Produced by the Schwinger Effect is Not Necessarily a Maximally Entangled Bell State”, Phys. Rev. D, 100 (2019) 045015.

      (3) De-Chang Dai, Dejan Stojkovic, “Primordial Scalar Gravitational Waves Produced at the QCD Phase Transition due to the Trace Anomaly”, Class. Quant. Grav. 36 (2019) 145004.


       Xiao-Mei Kuang:
      (1) Shi-Qian Hu, Xiao-Mei Kuang, “Holographic Heat Engine in Horndeski Model with the k-Essence Sector”, Sci. China-Phys. Mech. Astron. 62,060411 (2019).

      (2) Adolfo Cisterna, Shi-Qian Hu, Xiao-Mei Kuang, “Joule-Thomson Expansion in AdS Black Holes with Momentum Relaxation”, Phys. Lett. B 797 (2019) 134883
      (3) George Filios, P. A. González, Xiao-Mei Kuang, Eleftherios Papantonopoulos, Yerko Vásquez, “Spontaneous Momentum Dissipation and Coexistence of Phases in Holographic Horndeski Theory”, 
Phys. Rev. D. 99 (2019) 046017.
      (4) Shi-Qian Hu, Xiao-Mei Kuang, Yen Chin Ong, “A Note on Smarr Relation and Coupling Constants”, Gen. Relativ. Gravit (2019) 51
      (5) MahdisGhodrati, Xiao-Mei Kuang, Bin Wang, Cheng-Yong Zhang, Yu-Ting Zhou , “The Connection Between Holographic Entanglement and Complexity of Purification”, 
JHEP 1909 (2019) 009.
      (6) Hong Guo, Xiao-Mei Kuang, Bin Wang, “Holographic Entanglement Entropy and Complexity in Stückelberg Superconductor”, Phys. Lett. B 797 (2019) 134879.
      (7) Hong Guo, Hang Liu, Xiao-Mei Kuang, Bin Wang , “Strong Cosmic Censorship in Charged de Sitter Spacetime with Scalar Field Non-minimally Coupled to Curvature”, 
Eur. Phys. J. C 79 (2019) 891.

      (8) Yu-Ting Zhou, Mahdis Ghodrati, Xiao-Mei Kuang, Jian-Pin Wu, “Evolutions of Entanglement and Complexity After a Thermal Quench in Massive Gravity Theory”, Phys. Rev. D 100 (2019) 066003.


       Yunqi Liu:

      (1) Kai Lin, Yunqi Liu, Wei-Liang Qian, Bin Wang, Elcio Abdalla, “Quasinormal Modes for the Vaidya Metric in Asymptotically Anti–de Sitter Spacetime”, Phys. Rev. D 100 (2019) 065018.

      (2) K. Lin, Y. Liu and W. L. Qian, "Higher Dimensional Power-Maxwell Charged Black Holes in Einstein and Rastall Gravity", Gen. Rel. Grav. 51 (2019) 62.


       Yen Chin Ong:
      (1) Shi-Qian Hu, Xiao-Mei Kuang, Yen Chin Ong, “A Note on Smarr Relation and Coupling Constants”, Gen. Relativ. Gravit. 51 (2019) 55.

      (2) Yuan Yao, Meng-Shi Hou, Yen Chin Ong, “A Complementary Third Law for Black Hole Thermodynamics”, Eur. Phys. J. C  79(2019) 513.
      (3) Zi-Yu Tang, Yen Chin Ong, Bin Wang, Eleftherios Papantonopoulos, “GeneralBlack Hole Solutions in (2+1)-dimensions with a Scalar Field Non-Minimally Coupled to Gravity”, 
Phys. Rev. D 100 (2019) 100.

      (4) Daniele Gregoris, Yen Chin Ong, Bin Wang, “Curvature Invariants and Lower Dimensional Black Hole Horizons”, Eur. Phys. J. C 79 (2019) 925.

      (5) Shi-Qian Hu, Yen Chin Ong, Don N. Page, “No Violation of the Second Law in Extended Black Hole Thermodynamics”, Phys. Rev. D 100 (2019) 104022.

      (6) Yen Chin Ong, Yuan Yao, “Charged ParticleProduction Rate from Cosmic Censorship in Dilaton Black Hole Spacetimes”, JHEP 10 (2019) 129.

      Bin Wang:
      (1) Jiajun Zhang, Rui An, Wentao Luo, Zhaozhou Li, Shihong Liao, Bin Wang, “The First Constraint From SDSS Galaxy–Galaxy Weak Lensing Measurements on Interacting Dark Energy Models”, Astrophys. J. 875 (2019) L11.

      (2) Zi-Yu Tang, Yen Chin Ong, Bin Wang, Eleftherios Papantonopoulos, “General Black Hole Solutions in (2+1)-Dimensions with a Scalar Field Nonminimally Coupled to Gravity”, Phys. Rev. D 100 (2019) 024003.

      (3) R. An, X. Xu, J. Zhang, B. Wang, B. Yue, “Signature of the Interaction Between Dark Sectors in the Reionization Process”, JCAP 01 (2019) 034.

      (4) Daniele Gregoris, Yen Chin Ong, Bin Wang ,“Curvature Invariants and Lower Dimensional Black Hole Horizons”, Eur. Phys. J. C79 (2019) 925.

      (5) Mahdis Ghodrati, Xiao-Mei Kuang, Bin Wang, Cheng-Yong Zhang, Yu-Ting Zhou ,“The Connection Between Holographic Entanglement and Complexity of Purification”, JHEP 1909 (2019) 009.

      (6) L. Xiao, R. An, L. Zhang, B. Yue, Y. Xu, B. Wang, “Can Conformal and Disformal Couplings Between Dark Sectors Explain the EDGES 21-cm Anomaly?”, Phys. Rev. D 99 (2019) 023528.

      (7) Rui An, André A. Costa, Linfeng Xiao, Jiajun Zhang, Bin Wang, “Testing a Quintessence Model with Yukawa Interaction From Cosmological Observations and N-body Simulations”, Mon. Not. Roy. Astron. Soc. 489 (2019) 297.

      (8) Tao Yang, Bin Hu, Rong-Gen Cai, Bin Wang, “A New Probe of Gravity: Strongly Lensed Gravitational Wave Multi-Messenger Approach”, Astrophys. J.  50 (2019)  880

      (9) Kai Lin, Xiang Zhao, Chao Zhang, Tan Liu, Bin Wang, Shaojun Zhang, Xing Zhang, Wen Zhao, Tao Zhu, Anzhong Wang, “Gravitational Wave Forms, Polarizations, Response Functions and Energy Losses of Triple Systems in Einstein-Aether theory”, Phys. Rev. D 99 (2019) 023010.

     (10) Boxuan Ge, Jie Jiang, Bin Wang, Hongbao Zhang, Zhen Zhong, “Strong Cosmic Censorship for the Massless Dirac Field in the Reissner-Nordstr?m-de Sitter Spacetime”, JHEP 1901 (2019) 123.

     (11) Hang Liu, Ziyu Tang, Kyriakos Destounis, Bin Wang, Eleftherios Papantonopoulos, Hongbao Zhang, “ Strong Cosmic Censorship in Higher-Dimensional Reissner-Nordstr?m-de Sitter Spacetime”, JHEP 1903 (2019) 187.

     (12) Kai Lin, Yunqi Liu, Wei-Liang Qian, Bin Wang, Elcio Abdalla, “Quasinormal Modes for the Vaidya Metric in Asymptotically Anti–de Sitter Spacetime”, Phys. Rev. D 100 (2019)  065018.

      Jian-Pin Wu:
      (1) Wei-Jia Li, Jian-Pin Wu, “A Simple Holographic Model for Spontaneous Breaking of Translational Symmetry”, 
Eur. Phys. J. C79 (2019) 243.

      (2) ZhenhuaZhou, Jian-Pin Wu, Yi Ling, “Holography of Electrically and Magnetically Charged Black Branes”, Eur. Phys. J. C 79 (2019) 195.

      (3) Jian-Pin Wu, Baicheng Xu, Guoyang Fu, “Holographic Fermionic Spectrum with Weyl Correction”, Mod. Phys. Lett. A34 (2019) 1950045.

      (4) GuoyangFu, Jian-Pin Wu, “EM Duality and Quasinormal Modes from Higher Derivatives with Homogeneous Disorder” , Adv. High Energy Phys. 2019 (2019) 5472310.

      (5) Peng Liu, Yi Ling, Chao Niu, Jian-Pin Wu, “Entanglement of Purification in Holographic Systems”, JHEP 1909 (2019) 071.

      (6) Jian-Pin Wu,  “Holographic Quantum Critical Response From 6 Derivative Theory” , Phys. Lett. B 793 (2019) 348.

      (7) Peng Liu, Chao Niu, Jian-Pin Wu, “The Effect of Anisotropy on Holographic Entanglement Entropy and Mutual Information”, Phys. Lett. B 796 (2019) 155.

      (8) Yu-Ting Zhou, Mahdis Ghodrati, Xiao-Mei Kuang, Jian-Pin Wu, “Evolutions of Entanglement and Complexity After a Thermal Quench in Massive Gravity Theory”, Phys. Rev. D100 (2019) 066003.

      (9) Jian-Pin Wu, “Dynamical Gap Driven by Yukawa Coupling in Holography”, Eur. Phys. J.C 79 (2019) 691.

       Rui-Hong Yue:
       (1) Yue Wang, Chenghao Wu, Ruihong Yue, "A New Rotating Black Hole in Quintessential Dark Energy and Its Thermodynamics", 
Sci. China Phys. Mech. Astron. 62 (2019) 110411.

       (2) Bo Liu ,Zhan-Ying Yang, Rui-Hong Yue, "Tri-Critical Point and Solid/Liquid/Gas Phase Transition of Higher Dimensional AdS Black Hole in Massive Gravity", Annals of Phys. 412 (2020) 168023.

       Hua-Bi Zeng:
       (1) Chuan-Yin Xia, Hua-Bi Zeng, Hai-Qing Zhang, Zhang-Yu Nie, Yu Tian, and Xin Li, “Vortex Lattice in a Rotating Holographic Superfluid”,
Phys. Rev. D 100 (2019) 061901.

 

        Kang Zhou:
       (1) Kang Zhou, “Unified Web For Expansions of Amplitudes”, 
JHEP 10 (2019) 195.

       (2) Bo Feng, Xiaod Li, Kang Zhou,“Expansion of Einstein-Yang-Mills Theory by Differential Operators”,Phys. Rev. D 100 (2019) 125012.

        De-Cheng Zhou:
       (1) Yun Soo Myung, De-Cheng Zou, “Black Holes in Gauss–Bonnet and Chern–Simons-Scalar Theory”, Int. J. Mod. Phys. D 28 (2019) 1950114.

       (2) Yun Soo Myung, De-Cheng Zou, “Stability of Scalarized Charged Black Holes in the Einstein–Maxwell–Scalar theory”, Eur. Phys. J. C 79 (2019) 641.

       (3) Yun Soo Myung, De-Cheng Zou, “Black Holes in New Massive Conformal Gravity”, Phys. Rev. D100 (2019) 064057.

       (4) Yun Soo Myung, De-Cheng Zou, "Instability of Reissner–Nordstr?m Black Hole in Einstein-Maxwell-Scalar Theory", Eur. Phys. J. C 79 (2019) 273.
       (5) Yun Soo Myung, De-Cheng Zou, "Quasinormal Modes of Scalarized Black Holes in the Einstein-Maxwell-Scalar Theory ", Phys. Lett. B 790 (2019) 400.

       (6) Yun Soo Myung, De-Cheng Zou, "Scalarized Charged Black Holes With Scalar Mass Term", Phys. Rev. D 100 (2019) 124055.

      

        Larissa Santos:

       (1) Wen Zhao, Larissa Santos, “Model-independent Measurement of the Absolute Magnitude of Type Ia Supernovae with Gravitational-Wave Sources”, JCAP 1911 (2019) 009.

        Konstantinos F.  Dialektopoulos:
       (1) Sebastian Bahamonde, Konstantinos F. Dialektopoulos, Jackson Levi Said, 
“Can Horndeski Theory be Recast Using Teleparallel Gravity?”, Phys. Rev. D 100 (2019) 064018.

       (2) Konstantinos F. Dialektopoulos, Tomi S. Koivisto, Salvatore Capozziello,“Noether Symmetries in Symmetric Teleparallel Cosmology”, Eur. Phys. Jour. C 78 (2019) 606.

       (3) Jose BeltranJimenez, Konstantinos F. Dialektopoulos, “Non-linear Obstructions for Consistent New General Relativity”, JCAP (in press).

  

        Martin Krssak:

       (1) M. Hohmann, L. Jarv, M. Krssak, C. Pfeifer, “Modified Teleparallel Theories of Gravity in Symmetric Spacetimes”, Phys. Rev. D100 (2019) 084002.

       (2) M. Krssák, R. J. van den Hoogen, J. G. Pereira, C. G. Bohmer,  A. A. Coley, “Teleparallel Theories of Gravity: Illuminating a Fully Invariant Approach”, Eur. Phys. Jour. C 78 (2019) 606.

       (3) L. Jarv, M. Hohmann, M. Krssak, C. Pfeifer, “Flat Connection for Rotating Spacetimes in Extended Teleparallel Gravity Theories”, Universe 5 (2019) 142.


        Mahdis Ghodrati:

       (1) Yu-Ting Zhou , Mahdis Ghodrati, Xiao-Mei Kuang, Jian-Pin Wu, “Evolutions of Entanglement and Complexity After a Thermal Quenching Massive Gravity Theory”,Phys. Rev. D100 (2019) 066003.

       (2) Mahdis Ghodrati, Xiao-Mei Kuang , Bin Wang, Cheng-Yong Zhang, Yu-Ting Zhou, “The Connection Between Holographic Entanglement and Complexity of Purification”, JHEP 1909 (2019) 009.


        André A. Costa:

       (1) T. Chen, R. A. Battye, A. A. Costa, C. Dickinson, S. E. Harper, “Impact of 1/f Noise on Cosmological Parameter Constraints for SKA Intensity Mapping”, MNRAS (in press).

       (2) A. A. Costa et al., “J-PAS: Forecasts on Interacting Dark Energy From Baryon Acoustic Oscillations and Redshift-Space Distortions”, MNRAS 488 (2019) 78.

       (3) Rui An, AndréA. Costa, Linfeng Xiao, Jiajun Zhang, Bin Wang, “Testing a Quintessence Model With Yukawa Interaction From Cosmological Observations and N-Body Simulation”, MNRAS 489 (2019) 297.

 

       Sousuke Noda:

       (1) Y. Nambu, Sousuke Noda, Yuichiro Sakai, “Wave Optics in Spacetimes with Compact Gravitating Object”, Phys. Rev. D 100 (2019) 064037.

 

       Daniele Gregoris:

       (1) DanieleGregoris, Y.C. Ong, B. Wang, “Curvature Invariants and Lower Dimensional BlackHole Horizons”, EPJC 79 (2019) 925.





2018

De-Chang Dai: 

(1) De-Chang Dai, Djordje Minic, Dejan Stojkovic, “A New Wormhole Solution in de Sitter Space”, Phys. Rev. D 98 (2018) 124026.

(2) De-Chang Dai, Dejan Stojkovic, Glenn D. Starkman, “Strong Lensing Constraintson Modified Gravity Models”, Phys. Rev. D 98  (2018) 124027.

(3) De-Chang Dai, Zhi Gang Li, Dejan Stojkovic, “Measuring the Absolute Total Intrinsic Redshifts (Surface Gravity Plus the Convective Blueshift) of the Main Sequence Stars and Red Giants Using GAIA Data”, Astro. Phys. Journal 871 (2019) 119.


Xiao-Mei Kuang:

(1) Xiao-Mei Kuang, Eleftherios Papantonopoulos, Jian-Pin Wu, Zhenhua Zhou, “The Lifshitz Black Branes and DC Transport Coefficients in Massive Einstein-Maxwell-Dilaton Gravity”, Phys. Rev. D 97 (2018) 066006.

(2) Li-Qing Fang, Xiao-Mei Kuang, “Holographic Heat Engine with Momentum Relaxation”, Sci. China Phys. Mech. Astron. 61 (2018) 080421

(3) Adolfo Cisterna, Cristián Erices, Xiao-Mei Kuang, Massimiliano Rinaldi, “Axionic Black Branes with Conformal Coupling”, Phys. Rev. D 97 (2018) 124052.

(4) Jian-Pin Wu, Xiao-Mei Kuang, Zhenhua Zhou, “Holographic Transports from Born-Infeld Electrodynamics with Momentum Dissipation”, Eur. Phys. J. C 78(2018) 900

(5) Wei Zhang, Xiao-Mei Kuang, “The Quantum Effect on Friedmann Equation in FRW Universe”, Adv. High Energy Phys. 2018 (2018)6758078.

(6) Xiao-MeiKuang, Bo Liu, Ali Ovgun, “Nonlinear Electrodynamics AdS Black Hole and Related Phenomena in the Extended Thermodynamics”, Eur. Phys. J. C 840 (2018) 78.

(7) Jian-Pin Wu, Xiao-MeiKuang, Guoyang Fu, “Momentum Dissipation and Holographic Transport without Self-Duality”, Eur. Phys. J. C78 (2018) 616.


Yunqi Liu:

(1) YanPeng, Bin Wang, Yunqi Liu, “Studies of Scalar Field Configurations Supported by Reflecting Shells in the AdS Spacetime”, Eur. Phys. J. C78 (2018) 680.

(2) Yan Peng, Bin Wang, Yunqi Liu, “On the Thermodynamics of the Black Hole and Hairy Black Hole Transitions in the Asymptotically Flat Spacetime with a Box”, Eur. Phys. J. C 78(2018) 176.


Yen Chin Ong:

(1) Yen Chin Ong,James M. Nester, “Counting Components in the Lagrange Multiplier Formulation of Teleparallel Theories”, Eur. Phys. J. C 78 (2018) 568.

(2) Yen Chin Ong, S. Sedigheh Hashemi, Rui An, Bin Wang, “Stephani Cosmology: Entropically Viable But Observationally Challenged”, Eur. Phys. J. C 78 (2018) 405.

(3) Yen Chin Ong, “Degrees of Freedom and Problems in f(T) Gravity”, Int. J. Geom. Methods Mod. Phys. 15 No. supp 01 (2018) 1850139.

(4) Yen Chin Ong, “Generalized Uncertainty Principle, Black Holes, and White Dwarfs: A Tale ofTwo Infinities”, Jour. of Cosmo. and. Astropart. Phys 09 (2018) 015.

(5) Yen Chin Ong, “An Effective Black Hole Remnant via Infinite Evaporation Time Due to Generalized Uncertainty Principle”, Jour. of High Energy. Phys. 10 (2018) 195.

(6) Yen Chin Ong, “GUP-Corrected Black Hole Thermodynamics and the Maximum Force Conjecture”, Phys. Lett. B 785 (2018) 217.

(7) Yen Chin Ong, Yuan Yao, “Generalized Uncertainty Principle and White Dwarfs Redux: How Cosmological Constant Protects Chandrasekhar Limit”, Phys. Rev. D 98 (2018) 126018.


Bin Wang:

(1) Shao-Feng Wu, BinWang, Xian-Hui Ge, Yu Tian, “Collective Diffusion and Quantum Chaosin Holography”, Phys. Rev. D 97 (2018) 106018.

(2) Shao-FengWu, Bin Wang, Xian-Hui Ge, Yu Tian, “Holographic RG Flow of Thermo-Electric Transports with Momentum Dissipation”, Phys. Rev. D 97 (2018) 066029.

(3) YanPeng, Bin Wang, Yunqi Liu, “On the Thermodynamics of the Black Hole and Hairy Black Hole Transitions in the Asymptotically Flat Spacetime with a Box”, Eur. Phys. J. C 78 (2018) 176.

(4) Xian-Hui Ge, Bin Wang, “Quantum Computational Complexity, Einstein's Equations and Accelerated Expansion of the Universe”, Jour. of Cosmo. and. Astropart. Phys 02 (2018) 047.

(5) Mahdi Kord Zangeneh, Sedigheh S. Hashemi, Amin Dehyadegari, Ahmad Sheykhi, Bin Wang, “Optical Properties of Born-Infeld-Dilaton-Lifshitz Holographic Superconductors”, Phys. Lett. B 785 (2018) 238.

(6) Rui An, Chang Feng, Bin Wang, “Relieving the Tension between Weak Lensing and Cosmic Microwave Background with Interacting Dark Matter and Dark Energy Models”, Jour. of Cosmo. and. Astropart. Phys02 (2018) 038.

(7) Yen Chin Ong,S. Sedigheh Hashemi, Rui An, Bin Wang, “Stephani Cosmology: Entropically Viable But Observationally Challenged”, Eur. Phys. J. C 78 (2018) 405.

(8) Angelo Tartaglia, Giampiero Esposito, EmmanueleBattista, Simone Dell'Agnello, Bin Wang, “Looking for a New Test ofGeneral Relativity in the Solar System”, Mod. Phys. Lett. A 33 (2018) 1850136

(9) Andre A.Costa, Ricardo C. G. Landim, Bin Wang, E. Abdalla, “Interacting Dark Energy: Possible Explanation for 21-cm Absorption at Cosmic Dawn”, Eur. Phys. J. C78 (2018) 746.

(10) YanPeng, Bin Wang, Yunqi Liu, “Studies of Scalar Field ConfigurationsSupported by Reflecting Shells in the AdS Spacetime ”, Eur. Phys. J. C 78(2018) 680.

(11) Yuyu Mo, Yu Tian, Bin Wang, Hongbao Zhang, Zhen Zhong,“Strong Cosmic Censorship for the Massless Charged Scalar Field in theReissner-Nordstrom-de Sitter Spacetime”, Phys. Rev. D 98 (2018) 124025.

(12) Jiajun Zhang, Rui An, Shihong Liao, Wentao Luo, Zhaozhou Li, Bin Wang, “A Fully Self-Consistent Cosmological Simulation Pipeline for Interacting Dark Energy Models”, Phys. Rev. D 98 (2018) 103530.


Jian-Pin Wu:

(1) Wei-Jia Li, Peng Liu, Jian-Pin Wu, “Weyl Corrections to Diffusion and Chaosin Holography”, Jour. of High Energy Phys. 04 (2018) 115.

(2) Jian-Pin Wu, “Transport Phenomena and Weyl Correction in Effective Holographic Theory of Momentum Dissipation”, Eur. Phys. J. C 78 (2018) 292.

(3) Xiao-MeiKuang, Jian-Pin Wu, Zhenhua Zhou, “Holographic Transports from Born-Infeld Electrodynamics with Momentum Dissipation”, Eur. Phys. J. C 78 (2018) 900.

(4) Jian-Pin Wu, Xiao-Mei Kuang, Guoyang Fu, “Momentum Dissipation and Holographic Transport Without Self-Duality”, Eur. Phys. J. C 78 (2018) 616.

(5) Jian-Pin Wu,Peng Liu, “Quasi-Normal Modes of Holographic System with Weyl Correction and Momentum Dissipation”, Phys. Lett. B 780 (2018) 616.

(6) Jian-Pin Wu, “Holographic Quantum Critical Conductivity From Higher Derivative Electrodynamics”, Phys. Lett. B 785(2018) 296.

(7) Jian-Pin Wu,Martin Bojowald, Yongge Ma, “Anomaly Freedom in Perturbative Models of Euclidean Loop Quantum Gravity”, Phys. Rev. D 98 (2018) 106009.


Rui-Hong Yue:

(1) Yu Song, Hao Tang , De-Cheng Zou, Cheng-Yi Sun , Rui-Hong Yue, “Destroying MTZ Black Holes with Test Particles”, Chin. Phys. B27 (2018) 020401.

(2)  Hao Tang, Bin Wu, Cheng-yi Sun, Yu Song,Rui-hong Yue, “Entropy of Vaidya Black Hole on Apparent Horizon with Minimal Length Revisited”, Int. J. Theor. Phys. 57 (2018)2145.

(3) Ming Zhang,Rui-Hong Yue, “Phase Transition and Quasinormal Modes for Spherical Black Holesin 5D Gauss–Bonnet Gravity”, Chin. Phys. Lett. 35 (2018) 040401.

(4) Hao Tang,Cheng-Yi Sun, Bin Wu, Yu Song, Rui-Hong Yue, “Self-consistency of a Modification Method Based on Membrane Model with Minimal Length Considered”, Commun. Theor.  Phys. 70 (2018) 299.


Hua-Bi Zeng:

(1) Lin-Peng Du, Shao-Feng Wu, Hua-Bi Zeng, “Holographic Complexity of the Disk Subregion in (2+1)-Dimensional Gapped Systems”, Phys. Rev. D 98 (2018) 066005.

(2) Hua-Bi Zeng , Hai-Qing Zhang, “Universal Critical Exponents of Non-Equilibrium Phase Transitions from Holography”, Phys. Rev. D 98 (2018) 106024.


Kang Zhou:

(1) Kang Zhou, Bo Feng, “Note on Differential Operators, CHY Integrands, and Unifying Relations for Amplitudes”,Jour. of High Energy Phys. 09 (2018) 160.


De-ChengZhou:

(1) Yu Song, Hao Tang , De-Cheng Zou, Cheng-Yi Sun , Rui-Hong Yue, “Destroying MTZ Black Holes with Test Particles”, Chin. Phys. B 27 (2018) 020401.

(2) Bin Wu, De-Cheng Zou, “Viscosity/Entropy Ratio in the Context of dRGT Massive Gravity”, Europhysics Letters 124 (2018) 20002.

(3) Chen-Hao Wu,De-Cheng Zou, Yue Wang, “P-V Criticality of Born-Infeld AdS Black Holes Surrounded by Quintessence”, Commun. Theor. Phys. 70 (2018) 459.


Mahdis Ghodrati:

(1) Mahdis Ghodrati, “Complexity Growth Rate During Phase Transitions”, Phys. Rev. D 98 (2018) 106011.




2017


(13) Zi-Yu Tang, Yen Chin Ong, Bin Wang, “Lux in obscuro II: Photon Orbits of Extremal AdS Black Holes Revisited”, Class. Quantum Grav. 34 (2017) 245006, arXiv:1705.09633 [gr-qc][Published 22 November 2017]

 

(12) Ming Zhang, De-Cheng Zou, Rui-Hong Yue, “Reentrant Phase Transitions and Triple Points of Topological AdS Black Holes in Born-Infeld-Massive Gravity”, Adv. High Energy Phys. 2017 (2017) 3819246arXiv:1707.04101 [hep-th][Published 6 November 2017]


(11) Xiao-Mei Kuang, Jian-Pin Wu, “Effect of Quintessence on Holographic Fermionic Spectrum”Eur. Phys.J. C 77 (2017) 670[Published 09 October 2017]


(10) Xiao-Mei Kuang, Joel Saavedra, Ali Ovgun, “The Effect of the Gauss-Bonnet Term to Hawking Radiation from Arbitrary Dimensional Black Brane”, Eur. Phys. J. C 77 (2017) 613arXiv:1707.00169 [gr-qc][Published 15 September 2017]


(9) Mahdi Kord Zangeneh, Bin Wang, Ahmad Sheykhi, Zi-Yu Tang, “Charged Scalar Quasi-Normal Modes for Linearly Charged Dilaton-Lifshitz Solutions”, Phys. Lett. B 771 (2017) 257, arXiv:1701.03644 [hep-th][Published 10 August 2017]


(8) Bin Wu, Weiyang Liu, Hao Tang, Rui-Hong Yue, “Destroying Charged Black Holes in Higher Dimensions with Test Particles”, Int. J. Mod. Phys. A 32 (2017) 1750125. [Published 10 July 2017]


(7) Hao Tang, Cheng-Yi Sun, Rui-Hong Yue, “Entropy of Schwarzschild-de Sitter Black Hole with Generalized Uncertainty Principle Revisited”, Commun. Theor. Phys. 68 (2017) 64[Published 01 July 2017]


(6) De-Cheng Zou, Yunqi Liu, Ruihong Yue, “Behavior of Quasinormal Modes and Van der Waals-like Phase Transition of Charged AdS Black Holes in Massive Gravity”, Eur. Phys. J. C 77 (2017) 365arXiv:1702.08118 [gr-qc]. [Published 02 June 2017]


(5) Mahdi Kord Zangeneh, Yen Chin Ong, Bin Wang, “Entanglement Entropy and Complexity for One-Dimensional Holographic Superconductors”, Phys. Lett. B 771 (2017) 235, arXiv:1704.00557 [hep-th]. [Published 22 May 2017]


(4) Hao Tang, Yu Song, Rui-Hong Yue, Cheng-Yi Sun, “Destroying a Peldan Electrostatic Solution Black Hole”, Chin. Phys. Lett. 34 (2017) 040401. [Published 21 March 2017]


(3) Yu Song, Rui-Hong Yue, “Destroying a near-extremal Kerr-Newman-AdS black hole”, Commun. Theor. Phys. 69 (2018) 694arXiv:1705.01676 [gr-qc]. [Published  March 2017]


(2) Hua-Bi Zeng, Yu Tian, Zheyong Fan, Chiang-Mei Chen, “Nonlinear Conductivity of a Holographic Superconductor Under Constant Electric Field”, Phys. Rev. D 95 (2017) 046014, arXiv:1611.06798 [hep-th]. [Published 23 February 2017]


(1) Zhang-Yu Nie, Qiyuan Pan, Hua-Bi Zeng, Hui Zeng, “Split Degenerate States and Stable p+ip Phases From Holography”, Eur. Phys. J. C77 (2017) 69arXiv:1611.07278 [hep-th][Published 04 February 2017]










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The Center for Gravitation and Cosmology (CGC) is a research center founded in 2017 at Yangzhou University, in the Jiangsu Province of China. It is an initiative of the BRICS-Association of Gravity and Cosmology, with support from the BRICS countries (Brazil, Russia, India, China and South Africa). The center is currently hosted on the 3rd floor of the College of Physical Sciences and Technology building, on the scenic Slender West Lake campus. 

Contact Us

Address: No. 180, Siwangting Road, Yangzhou City, Jiangsu Province, 

P.R. China 225002.

E-mail: GRcenter@yzu.edu.cn

Web: http://www.cgc-yzu.cn/