Your search keyword '"Liu, Yu-Xiao"' showing total 20 results

1. Island formula in Planck brane

Author

Chang, Jing-Cheng, He, Song, Liu, Yu-Xiao, and Zhao, Long

Published

2023

2. Generalized volume-complexity for RN-AdS black hole

Author

Wang, Meng-Ting, Jiang, Hong-Yue, and Liu, Yu-Xiao

Published

2023

3. Destroying the event horizon of a nonsingular rotating quantum-corrected black hole

Author

Yang, Si-Jiang, Zhang, Yu-Peng, Wei, Shao-Wen, and Liu, Yu-Xiao

Published

2022

4. First law of black hole thermodynamics and the weak cosmic censorship conjecture for Kerr–Newman Taub–NUT black holes.

Author

Yang, Si-Jiang, Guo, Wen-Di, Wei, Shao-Wen, and Liu, Yu-Xiao

Subjects

BLACK holes, THERMODYNAMICS, SCALAR field theory, ELECTRIC charge, LOGICAL prediction, SECOND law of thermodynamics, QUANTUM tunneling, SCHWARZSCHILD black holes

Abstract

Stimulated by the recent researches of black hole thermodynamics for black hole with Newman–Unti–Tamburino (NUT) parameter, we investigate the thermodynamics and weak cosmic censorship conjecture for a Kerr–Newman Taub–NUT black hole. By defining the electric charge as a Komar integral over the event horizon, we construct a consistent first law of black hole thermodynamics for a Kerr–Newman Taub–NUT black hole through Euclidean action. Having the first law of black hole thermodynamics, we investigate the weak cosmic censorship conjecture for the black hole with a charged test particle and a complex scalar field. We find that an extremal black hole cannot be destroyed by a charged test particle and a complex scalar field. For a near-extremal black hole with small NUT parameter, it can be destroyed by a charged test particle but cannot be destroyed by a complex scalar field. [ABSTRACT FROM AUTHOR]

Published

2023

5. Shadow of a charged black hole with scalar hair.

Author

Guo, Wen-Di, Wei, Shao-Wen, and Liu, Yu-Xiao

Subjects

BLACK holes, SCHWARZSCHILD black holes, SPACETIME

Abstract

Seeking singularity free solutions are important for further understanding black holes in quantum level. Recently, a five-dimensional singularity free black hole/topological star was constructed (Bah and Heidmann in Phys Rev Lett 126:151101, 2021). Through the Kaluza–Klein reduction, an effective four-dimensional static spherically symmetric charged black hole with scalar hair can be obtained. In this paper, we study shadow of this charged black hole with scalar hair in terms of four kinds of observers, i.e., static observers, surrounding observers, freely falling observers, and escaping observers in four-dimensional spacetime. For a spherically symmetric black hole, the shadow is circular for any observer, but the shadow size depends on the motion status of the observer. On the other hand, the effect of plasma is also investigated by a simple model. The radius of the photon sphere depends on the plasma model. Most importantly, we find that the shadow sizes do not monotonically decrease with r in some cases. [ABSTRACT FROM AUTHOR]

Published

2023

6. Particle collisions on stringy black hole background

Author

Wei, Shao-Wen, Liu, Yu-Xiao, Li, Hai-Tao, and Chen, Feng-Wei

Published

2010

7. Hidden conformal symmetry of the Kerr-Newman black hole

Author

Wang, Yong-Qiang and Liu, Yu-Xiao

Published

2010

8. Shadow and Weak Deflection Angle of a Black Hole in Nonlocal Gravity.

Author

Fu, Qi-Ming, Wei, Shao-Wen, Zhao, Li, Liu, Yu-Xiao, and Zhang, Xin

Subjects

GRAVITATIONAL lenses, BLACK holes, DEFLECTION (Light), GRAVITATIONAL constant, GRAVITY, QUANTUM gravity, CIRCLE, GRAVITATIONAL potential

Abstract

Black hole shadow and gravitational lensing play important roles in testing gravitational theories in the strong field regime. As the first-order modifications from quantum gravity, the nonlocality can be manifested by black hole shadow and gravitational lensing. For example, the nonlocal parameter introduced by nonlocality will affect the shape and size of the black hole shadow, and also affect the deflection angle of light rays. In this paper, we mainly investigate the effects of the nonlocality on the black hole shadow and the gravitational lensing for two types of rotating black holes in nonlocal gravity. It is found that the size of the black hole shadow decreases with the nonlocal parameter since the nonlocality weakens the gravitational constant, and the shape of the shadow becomes more deformed with the increase in the nonlocal parameter. However, if the rotation parameter is small, the shape of the shadow is almost a circle even though the nonlocal parameter approaches its maximum. The energy emission rate in both models is also studied. The results show that there is a peak for each curve and the peak decreases and shifts to the low frequency with the increase in the nonlocal parameter. In addition, we also explore the shadow of both types of black holes surrounded by a nonmagnetized pressureless plasma which satisfies the separability condition. It is found that the plasma has a frequency-dependent dispersive effect on the size and shape of the black hole shadow. For the gravitational lensing, we find that the nonlocal parameter of model A makes a positive contribution to the deflection angle, which can be compared with the contribution of the rotation parameter, while the nonlocal parameter of model B makes a negative contribution which can be ignored. These results may be helpful for probing nonlocal gravity in future observations. [ABSTRACT FROM AUTHOR]

Published

2022

9. Quasinormal modes and van der Waals-like phase transition of charged AdS black holes in Lorentz symmetry breaking massive gravity.

Author

Liang, Bin, Wei, Shao-Wen, and Liu, Yu-Xiao

Subjects

BLACK holes, PHASE transitions, ISOTHERMAL processes, ISOBARIC processes, CRITICAL point (Thermodynamics), GRAVITY

Abstract

Using the quasinormal modes of a massless scalar perturbation, we investigate the small/large black hole phase transition in the Lorentz symmetry breaking massive gravity. We mainly focus on two issues: (i) the sign change of slope of the quasinormal mode frequencies in the complex- ω diagram; (ii) the behaviors of the imaginary part of the quasinormal mode frequencies along the isobaric or isothermal processes. For the first issue, our result shows that, at low fixed temperature or pressure, the phase transition can be probed by the sign change of slope. While increasing the temperature or pressure to certain values near the critical point, there will appear the deflection point, which indicates that such method may not be appropriate to test the phase transition. In particular, the behavior of the quasinormal mode frequencies for the small and large black holes tend to be the same at the critical point. For the second issue, it is shown that the nonmonotonic behavior is observed only when the small/large black hole phase transition occurs. Therefore, this property can provide us with an additional method to probe the phase transition through the quasinormal modes. [ABSTRACT FROM AUTHOR]

Published

2019

10. New insights into thermodynamics and microstructure of AdS black holes.

Author

Wei, Shao-Wen and Liu, Yu-Xiao

Subjects

*BLACK holes, *SCHWARZSCHILD black holes, *THERMODYNAMICS, *MEAN field theory, *FIRST-order phase transitions

Abstract

Motivated by the AdS/CFT [3], this Hawking-Page phase transition was interpreted as the confinement/deconfinement phase transition in gauge theory. Besides the VdW-like phase transition, more interesting phase transitions were found. For example, six-dimensional single spinning Kerr-AdS black hole admits a reentrant phase transition [6] and multi-spinning Kerr-AdS black hole has a triple point [7]. Phase transition provides a potential convenience to insight the black hole microstructure because the microstructure of a thermodynamic system greatly changes when it encounters a first-order phase transition. [Extracted from the article]

Published

2020

11. Complexity growth rates for AdS black holes in massive gravity and f( R) gravity.

Author

Guo, Wen-Di, Wei, Shao-Wen, Li, Yan-Yan, and Liu, Yu-Xiao

Subjects

BLACK holes, GRAVITY, DUALITY theory (Mathematics), QUANTUM theory, APPROXIMATION theory

Abstract

The 'complexity = action' duality states that the quantum complexity is equal to the action of the stationary AdS black hole within the Wheeler-DeWitt patch at late time approximation. We compute the action growth rates of the neutral and charged black holes in massive gravity and the neutral, charged and Kerr-Newman black holes in f( R) gravity to test this conjecture. Besides, we investigate the effects of the massive graviton terms, higher derivative terms and the topology of the black hole horizon on the complexity growth rate. [ABSTRACT FROM AUTHOR]

Published

2017

12. First law of black hole mechanics in variable background fields.

Author

Wu, Shao-Feng, Ge, Xian-Hui, and Liu, Yu-Xiao

Subjects

FIRST law of thermodynamics, BLACK holes, DIFFEOMORPHISMS, ENTROPY, SYMMETRY (Physics)

Abstract

It is well known that in general theories of gravity with the diffeomorphism symmetry, the black hole entropy is a Noether charge. But what will happen if the symmetry is explicitly broken? By investigating the covariant first law of black hole mechanics with background fields, we show that the would-be Noether charge still can be identified as the black hole entropy, provided that it is a local quantity on the horizon. Moreover, motivated by the proposal that the cosmological constant behaves as a thermodynamic variable, we allow the non-dynamical background fields to be varied. To illustrate this general formalism, we study a generic static black brane in the massive gravity. Using the first law and the scaling argument, we obtain two Smarr formulas. We show that both of them can be retrieved without relying on the first law, hence providing a self-consistent check of the theory. [ABSTRACT FROM AUTHOR]

Published

2017

13. Dynamic properties of thermodynamic phase transition for five-dimensional neutral Gauss-Bonnet AdS black hole on free energy landscape.

Author

Wei, Shao-Wen, Liu, Yu-Xiao, and Wang, Yong-Qiang

Subjects

*PHASE transitions, *BLACK holes, *FOKKER-Planck equation, *HIGH temperatures, *PROBABILITY theory

Abstract

Understanding the dynamic process of the thermodynamic phase transition can provide the deep insight into the black hole microscopic properties and structures. We in this paper study the dynamic properties of the stable small-large black hole phase transition for the five-dimensional neutral Gauss-Bonnet AdS black hole. Firstly, by using the first law of black holes, we prove that the extremal points of the free energy on the landscape denote the real black hole solutions satisfying the field equations. The local maximal and minimal points correspond to local unstable and stable black hole states, respectively. Especially, on the free energy landscape, the wells of the coexistence small and large black holes have the same depth. Then we investigate the probability evolution governed by the Fokker-Planck equation. Due to the thermal fluctuation, we find that the small (large) black hole state can transit to the large (small) black hole state. Furthermore, the first passage time is calculated. For each temperature, a single peak is presented, which suggests that there is a considerable fraction of the first passage events taking place at short time. And the higher the temperature is, the faster decrease of the probability is. These results will uncover some intriguing dynamic properties of the stable small-large black hole phase transition in modified gravity. [ABSTRACT FROM AUTHOR]

Published

2022

14. Dark Information in Black Hole with λφ Fluid.

Author

Liu, Yu-Xiao, Ma, Yu-Han, Wang, Yong-Qiang, Wei, Shao-Wen, and Sun, Chang-Pu

Subjects

*ELECTROMAGNETIC spectrum, *HAWKING radiation, *FLUIDS, *BLACK holes

Abstract

It has been shown that the nonthermal spectrum of Hawking radiation will lead to information-carrying correlations between emitted particles in the radiation. The mutual information carried by such correlations can not be locally observed and hence is dark. With dark information, the black hole information is conserved. In this paper, we look for the spherically symmetric black hole solution in a λ φ fluid model and investigate the radiation spectrum and dark information of the black hole. The spacetime structure of this black hole is similar to that of the Schwarzschild one, while its horizon radius is decreased by the λ φ fluid. By using the statistical mechanical method, the nonthermal radiation spectrum is calculated. This radiation spectrum is very different from the Schwarzschild case at its last stage because of the effect of the λ φ fluid. The λ φ fluid reduces the lifetime of the black hole, but increases the dark information of the Hawking radiation. [ABSTRACT FROM AUTHOR]

Published

2022

15. Fermion absorption cross section and topology of spherically symmetric black holes

Author

Liu, Yu-Xiao, Zhao, Li, Cao, Zhen-Bin, and Duan, Yi-Shi

Subjects

*ABSORPTION, *GRAVITATIONAL collapse, *SUPERMASSIVE black holes, *STARS

Abstract

Abstract: In 1997, Liberati and Pollifrone in [S. Liberati, G. Pollifrone, Phys. Rev. D 56 (1997) 6458, hep-th/9708014] achieved a new formulation of the Bekenstein–Hawking formula, where the entropy and the Euler characteristic are related by . In this work we present a relation between the low-energy absorption cross section for minimally coupled fermions and the Euler characteristic of -dimensional spherically symmetric black holes, i.e. . Based on the relation, using the Gauss–Bonnet–Chern theorem and the ϕ-mapping method, an absorption cross section density is introduced to describe the topology of the absorption cross section. It is shown that the absorption cross section and its density are determined by the singularities of the timelike Killing vector field of the spacetime and these singularities carry the topological numbers, Hopf indices and Brouwer degrees, naturally. [Copyright &y& Elsevier]

Published

2007

16. Born–Infeld black holes in 4D Einstein–Gauss–Bonnet gravity.

Author

Yang, Ke, Gu, Bao-Min, Wei, Shao-Wen, and Liu, Yu-Xiao

Subjects

ELECTRIC charge, GRAVITY, HAWKING radiation, ELECTRIC fields, SCHWARZSCHILD black holes, THERMODYNAMICS, BLACK holes

Abstract

A novel four-dimensional Einstein-Gauss-Bonnet gravity was formulated by Glavan and Lin (Phys. Rev. Lett. 124:081301, 2020), which is intended to bypass the Lovelock's theorem and to yield a non-trivial contribution to the four-dimensional gravitational dynamics. However, the validity and consistency of this theory has been called into question recently. We study a static and spherically symmetric black hole charged by a Born–Infeld electric field in the novel four-dimensional Einstein–Gauss–Bonnet gravity. It is found that the black hole solution still suffers the singularity problem, since particles incident from infinity can reach the singularity. It is also demonstrated that the Born-Infeld charged black hole may be superior to the Maxwell charged black hole to be a charged extension of the Schwarzschild-AdS-like black hole in this new gravitational theory. Some basic thermodynamics of the black hole solution is also analyzed. Besides, we regain the black hole solution in the regularized four-dimensional Einstein–Gauss–Bonnet gravity proposed by Lü and Pang (arXiv:2003.11552). [ABSTRACT FROM AUTHOR]

Published

2020

17. Intriguing microstructures of five-dimensional neutral Gauss-Bonnet AdS black hole.

Author

Wei, Shao-Wen and Liu, Yu-Xiao

Subjects

*BLACK holes, *PHASE space, *MICROSTRUCTURE, *PHASE transitions, *ADVERTISING, *CURVATURE

Abstract

In this paper, we analytically study the phase structure and construct the Ruppeiner geometry in the extended phase space for the five-dimensional neutral Gauss-Bonnet AdS black hole. Through calculating the scalar curvature of the Ruppeiner geometry and combining the phase transition, we show that the attractive interaction is dominant in the microstructure of the black hole system. More significantly, there is an intriguing property that the normalized scalar curvature has the same expression for the saturated small and large black hole curves. This implies that although the microstructure is different before and after the small-large black hole phase transition, the interaction between the microscopic constituents keeps unchanged. These results are quite valuable on further understanding the microstructure of the AdS black hole in modified gravity. [ABSTRACT FROM AUTHOR]

Published

2020

18. Charged AdS black hole heat engines.

Author

Wei, Shao-Wen and Liu, Yu-Xiao

Subjects

*HEAT engines, *GAMMA ray sources, *BLACK holes, *COSMIC rays, *COSMIC ray showers, *RANKINE cycle

Abstract

We study the heat engine by a d -dimensional charged anti-de Sitter black hole by making a comparison between the small-large black hole phase transition and the liquid-vapor phase transition of water. With the help of the first law and equal-area law, we obtain an exact formula for the efficiency of a black hole engine modeled with a Rankine cycle with or without a back pressure mechanism. When the low temperature is fixed, both the heat and work decrease with the high temperature T 1. And the efficiency increases with T 1 , while decreases with the charge q. For a Rankine cycle with a back pressure mechanism, we find that both the maximum work and efficiency can be approached at the high temperature T 1. In the reduced parameter space, it also confirms the similar result. Moreover, we observe that the work and efficiency of the black hole heat engine rapidly increase with the number of spacetime dimensions. Thus higher-dimensional charged anti-de Sitter black hole can act as a more efficient power plant producing the mechanical work, and might be a possible source of the power gamma rays and ultrahigh-energy cosmic rays. [ABSTRACT FROM AUTHOR]

Published

2019

19. Universal thermodynamic relations with constant corrections for rotating AdS black holes.

Author

Wei, Shao-Wen, Yang, Ke, and Liu, Yu-Xiao

Subjects

*DEPENDENCY (Psychology), *PHOTONS, *COUPLING constants, *QUANTUM gravity, *ANGULAR momentum (Mechanics), *BLACK holes

Abstract

In Goon and Penco (2020) [17] , a universal relation between corrections to entropy and extremality was proposed. The relation was also found to exactly hold for the four-dimensional charged AdS black hole. In this paper, we extend the study to the rotating BTZ and Kerr-AdS black holes when a constant correction to General Relativity is considered for the first time. The entropy and extremality bound are calculated, and they have a closely dependent behavior with the coupling parameter of the constant correction. We confirm the universal relation for the rotating AdS black holes. Furthermore, taking into consideration of the shift of the angular momentum, we confirm one more new universal relation for the rotating cases. In particular, as a more general argument, we propose a novel universal extremal relation, which gives a universal conjecture relation between the shifted thermodynamic quantities for arbitrary black hole backgrounds. We believe that these universal relations will shed new light on the region of the quantum gravity. [ABSTRACT FROM AUTHOR]

Published

2021

20. Topological approach to derive the global Hawking temperature of (massive) BTZ black hole.

Author

Zhang, Yu-Peng, Wei, Shao-Wen, and Liu, Yu-Xiao

Subjects

*BLACK holes, *TEMPERATURE, *EULER characteristic, *TOPOLOGICAL defects (Physics), *SCHWARZSCHILD black holes

Abstract

In this paper, we study the Hawking temperature of the BTZ black hole based on the purely topological method proposed by Robson, Villari, and Biancalana (RVB) [Phys. Rev. D 99, 044042 (2019)]. The Hawking temperature of the charged rotating BTZ black hole can be accurately derived by this topological method. We also calculate the Hawking temperature of the BTZ black hole in massive gravity. Because the metric function of the BTZ black hole in massive gravity has a mass term, the corresponding Hawking temperature cannot be derived unless an integral constant is added. [ABSTRACT FROM AUTHOR]

Published

2020