Your search keyword '"Zhang, Yu-Peng"' showing total 355 results

1. Gravitational waveforms from periodic orbits around a quantum-corrected black hole

Author

Yang, Sen, Zhang, Yu-Peng, Zhu, Tao, Zhao, Li, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology

Abstract

Extreme mass-ratio inspirals are crucial sources for future space-based gravitational wave detections. Gravitational waveforms emitted by extreme mass-ratio inspirals are closely related to the orbital dynamics of small celestial objects, which vary with the underlying spacetime geometry. Despite the tremendous success of general relativity, there are unsolved issues such as singularities in both black holes and cosmology. Loop quantum gravity, a theory addressing these singularity problems, offers a framework for regular black holes. In this paper, we focus on periodic orbits of a small celestial object around a supermassive quantum-corrected black hole in loop quantum gravity and compute the corresponding gravitational waveforms. We view the small celestial object as a massive test particle and obtain its four-velocity and effective potential. Our results indicate that the quantum parameter $\hat{\alpha}$ influences the shape of the effective potential. We explore the effects of quantum corrections on marginally bound orbits, innermost stable circular orbits, and other periodic orbits. Using the numerical kludge scheme, we further explore the gravitational waveforms of the small celestial object along different periodic orbits. The waveforms exhibit distinct zoom and whirl phases in a complete orbital period, closely tied to the quantum parameter $\hat{\alpha}$. We also perform a spectral analysis of the gravitational waves from these periodic orbits and assess their detectability. With the steady progress of space-based gravitational wave detection programs, our findings will contribute to utilizing extreme mass-ratio inspirals to test and understand the properties of quantum-corrected black holes., Comment: 16 pages, 12 figures, and 2 tables

Published

2024

2. Constraining black hole parameters with the precessing jet nozzle of M87*

Author

Wei, Shao-Wen, Zou, Yuan-Chuan, Zhang, Yu-Peng, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Recently, Cui et al. [Nature \textbf{621}, 711 (2023)] reported that the jet nozzle of M87* exhibits a precession with a period of approximately 11 years. This finding strongly suggests that M87* is a spinning black hole with a tilted accretion disk. In this paper, our aim is to utilize these observations to constrain the parameters of the black hole. Firstly, we investigate the properties of the tilted circular orbits and the innermost stable circular orbits. The corresponding angular momentum, energy, and Carter constant for both prograde and retrograde orbits are calculated. We find that, compared to equatorial circular orbits, these quantities exhibit significant differences for fixed tilt angles. Moreover, the Carter constant takes positive values for nonvanishing tilt angles. Notably, the presence of misalignment of the orbit angular momentum and black hole spin leads to a precession effect in these tilted circular orbits. We then make use of these circular orbits to model the warp radius of the tilted accretion disk, which allows us to determine the corresponding precession period through the motion of massive particles. Further comparing with the observation of M87*, the relationship between the black hole spin and the warp radius is given, through which if one of them is tested, the other one will be effectively determined. Additionally, our study establishes an upper bound on the warp radius of the accretion disk. These findings demonstrate that the precession of the jet nozzle offers a promising approach for testing the physics of strong gravitational regions near a supermassive black holes., Comment: 11 pages, 8 figures. Typos are corrected

Published

2024

3. Role of Coulomb interaction in elastic pion-proton scattering from holography

Author

Zhang, Yu-Peng, Chen, Xun, Li, Xiao-Hua, and Watanabe, Akira

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory

Abstract

Differential cross sections of the elastic pion-proton scattering are investigated at very small momentum transfer in a holographic QCD model, considering both the strong and Coulomb interaction in the Regge regime. The strong interaction is described by the Pomeron and Reggeon exchange, and the Coulomb interaction is characterized by the one photon exchange. The two interactions are linked through an interference term and we only need to determine a single adjustable parameter involved in this term. As to the parameters for the strong interaction, we can utilize the values determined in the previous studies. The differential cross sections can be predicted without any additional parameters, and it is shown that our predictions are consistent with the experimental data. We explicitly show the momentum transfer dependence for the interference effect. The energy dependence of the contribution ratios for each component is also discussed., Comment: 24 pages, 5 figures, version accepted for publication in Phys. Rev. D

Published

2024

4. Geodesic tracking of gravitational collapse and migration of boson stars

Author

Zhang, Yu-Peng, Sun, Shi-Xian, Wang, Yong-Qiang, Wei, Shao-Wen, Laguna, Pablo, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology

Abstract

Boson stars are potential sources of gravitational radiation. To improve our comprehension of these exotic objects, we present the study of geodesics within the space-times of stable, collapsing, and migrating boson stars. We focus on timelike geodesics that are initially circular or reciprocating. We verify that orbits initially bound within a stable boson stars persist in their bound states. For a collapsing boson star, we show that orbits initially bound and reciprocating finally either become unbound or plunge into the newly formed black hole, depending on their initial maximal radii. For initially circular geodesics, orbits with small radii plunge into the black hole; orbits with intermediate radii become unbound; and large radii orbits linger around the black hole with nonvanishing eccentricities. For the migrating case, a black hole does not form. In this case, the reciprocating orbits span a wider radial range. For initially circular geodesics, orbits with small radii become unbound, and orbits with large radii remain bound with nonvanishing eccentricities. This geodesic study provides a novel approach to investigate the gravitational collapse and migration of boson stars., Comment: 6 pages, 5 figures, comments are welcome

Published

2023

5. Rotating multistate axion boson stars

Author

Zeng, Yan-Bo, Sun, Shi-Xian, Cui, Si-Yuan, Zhang, Yu-Peng, and Wang, Yong-Qiang

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

We consider excited configuration and multistate configuration of rotating axion boson stars~(RABSs).RABSs are asymptotically flat, stationary, spinning, horizonless solutions of Einstein-Klein-Gordon theory in which the scalar potential depends on scalar field mass $\mu$ and axion decay constant $f_a$. The excited RABSs have two types of solutions, including $^2S$ state and $^2P$ state. The rotating multistate axion boson stars~(RMABSs) consist of coupled fundamental configuration and excited configuration, and also include two types of solutions: $^1S^2S$ state and $^1S^2P$ state. Some differences between RABSs models and rotating mini-boson stars models are discussed. We show the solution space of these models for different values of decay constant $f_a$. We found fundamental RABSs have a higher maximum mass than the excited state in the low decay constant region. Moreover, the multistate configuration allows a higher mass than both the fundamental configuration and the excited configuration at the same frequency. We also found the RMABSs have the second branch in which the ergo-region emerges. This means the second branch may be superradiant unstable., Comment: 18 pages, 9 figures

Published

2023

6. Contribution of Coulomb interaction to elastic pp and p p\bar scattering in holographic QCD

Author

Zhang, Yu-Peng, Chen, Xun, Li, Xiao-Hua, and Watanabe, Akira

Subjects

High Energy Physics - Phenomenology

Abstract

The differential cross sections of elastic proton-proton (pp) and proton-antiproton (pp\bar) scattering are studied in a holographic QCD model, considering the strong and Coulomb interaction in the Regge regime. Based on previous studies of strong interactions described in terms of Pomeron and Reggeon exchange, we add the contribution of Coulomb interaction described by photon exchange. We present the momentum transfer dependence of the contribution rates for each component, especially for the Coulomb-nuclear interference, which refers to the cross term between both interactions. For the adjustable parameters for the strong interaction, we can adopt the values determined in previous studies, and there are no extra adjustable parameters that need to be determined for the Coulomb interaction. It is presented that the resulting differential cross sections are consistent with the data for pp and pp\bar scattering., Comment: 19 pages, 6 figures

Published

2023

7. Microstructure recognition of steels by machine learning based on visual attention mechanism

Author

Chen, Xing-yu, Cheng, Lin, Hu, Cheng-yang, Zhang, Yu-peng, and Wu, Kai-ming

Published

2024

8. Characteristic modes of thick brane model: resonances and quasinormal modes

Author

Tan, Qin, Guo, Wen-Di, Zhang, Yu-Peng, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology

Abstract

In this work, we investigate the gravitational quasinormal modes (QNMs) and the gravitational resonances of a thick brane model. We use the asymptotic iteration and shooting methods to obtain the quasinormal frequencies (QNFs) of the brane. On the other hand, we investigate the resonances and their evolution numerically. The results show that the oscillations of the resonances equal (up to numerical error) to the real parts of the QNFs, while the damping rates of the resonances equal to the imaginary parts of the QNFs. The QNMs and resonances, both of them can be regarded as the characteristic modes of the thick brane, are closely related with each other. In addition, the lifetime of these QNMs could be very long, perhaps they might be detected in future accelerator or gravitational wave detector., Comment: 10 pages, 6 figures, improved version

Published

2023

9. Evolution of Fermion Resonance in Thick Brane

Author

Zhu, Chun-Chun, Tan, Qin, Zhang, Yu-Peng, and Liu, Yu-Xiao

Subjects

High Energy Physics - Theory

Abstract

In this work, we investigate numerical evolution of massive Kaluza-Klein (KK) modes of a Dirac field on a thick brane. We deduce the Dirac equation in five-dimensional spacetime, and obtain the time-dependent evolution equation and Schr\"odinger-like equation of the extra-dimensional component. We use the Dirac KK resonances as the initial data and study the corresponding dynamics. By monitoring the decay law of the left- and right-chiral KK resonances, we compute the corresponding lifetimes and find that there could exist long-lived KK modes on the brane. Especially, for the lightest KK resonance with a large coupling parameter and a large three momentum, it will have an extremely long lifetime., Comment: 26 pages, 12 figures

Published

2023

10. Static spheres around spherically symmetric black hole spacetime

Author

Wei, Shao-Wen, Zhang, Yu-Peng, Liu, Yu-Xiao, and Mann, Robert B.

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

Unique features of particle orbits produce novel signatures of gravitational observable phenomena, and are quite useful in testing compact astrophysical objects in general relativity or modified theories of gravity. Here we observe a representative example that a static, spherically symmetric black hole solution with nonlinear electrodynamics admits static points at finite radial distance. Each static point thus produces a static sphere, on which a massive test particle can remain at rest at arbitrary latitudes with respect to an asymptotic static observer. As a result, the well-known static Dyson spheres can be implemented by such orbits. More interestingly, employing a topological argument, we disclose that stable and unstable static spheres (if they exist) always come in pairs in an asymptotically flat spacetime. In contrast to this, the counterpart naked singularity has one more stable static sphere than the unstable one. Our results have potential applications in testing black holes in standard Maxwell and nonlinear electrodynamics, as well as in uncovering the underlying astronomical observation effects in other gravitational theories beyond general relativity., Comment: 7 pages, 4 figures. Published version

Published

2023

11. Gravitational recoil from binary black hole mergers in scalar field clouds

Author

Zhang, Yu-Peng, Gracia-Linares, Miguel, Laguna, Pablo, Shoemaker, Deirdre, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology

Abstract

In vacuum, the gravitational recoil of the final black hole from the merger of two black holes depends exclusively on the mass ratio and spins of the coalescing black holes, and on the eccentricity of the binary. If matter is present, accretion by the merging black holes may modify significantly their masses and spins, altering both the dynamics of the binary and the gravitational recoil of the remnant black hole. This paper considers such scenario. We investigate the effects on the kick of the final black hole from immersing the binary in a scalar field cloud. We consider two types of configurations: one with non-spinning and unequal-mass black holes, and a second with equal mass and spinning holes. For both types, we investigate how the gravitational recoil of the final black hole changes as we vary the energy density of the scalar field. We find that the accretion of scalar field by the merging black holes could have a profound effect. For the non-spinning, unequal-mass binary black holes, the kicks are in general larger than in the vacuum case, with speeds of approximately 1,200 km/s for binaries with mass ratio 2:1, one order of magnitude larger than in vacuum. For equal mass, binaries with black holes with spins aligned with the orbital angular momentum, kicks larger than in vacuum are also found. For systems with spins in the super-kick configuration, the scalar field triggers a similar dependence of the kicks with the entrance angle at merger as in the vacuum case but in this case depending on the strength of the scalar field., Comment: 13 pages, 9 figures

Published

2022

12. Primordial black holes from an inflationary potential valley

Author

Gu, Bao-Min, Shu, Fu-Wen, Yang, Ke, and Zhang, Yu-Peng

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

Primordial black holes (PBHs) could be formed if large perturbations are generated on small scales in inflation. We study a toy inflation model with a local minimum. The curvature perturbations are enhanced when the inflaton passes through the local minimum, with more efficient amplification rate than that of quasi-inflection point inflation, leading to the production of PBHs on small scales. The PBHs could comprise the total dark matter in the mass window $10^{16}$--$10^{20}$g., Comment: 7 pages,4 figures

Published

2022

13. Dynamics of scalar hair with self-interactions around a Schwarzchild black hole

Author

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

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

In this paper, we study the dynamics of scalar hair around a Schwarzchild black hole. The scalar hair is sourced by the Gauss-Bonnet invariant with a linear coupling. We work perturbatively in the coupling constant and ignore the back-reaction of the scalar hair and the Gauss-Bonnet invariant. We evolve the scalar field in the background of a Schwarzchild black hole and study the dynamical formation of scalar hair with different self-interactions. We integrate the energy and compute the energy flux of the scalar hair in terms of the canonical energy-momentum tensor and give the corresponding dependence on the self-interactions. Our results allow us to estimate the radiation and the condensation of scalar field with different self-interactions, these would improve our understanding for the dynamical scalarization of black holes and the possible configuration of the scalar hair in scalar Gauss-Bonnet gravity., Comment: 11 pages, 7 figures

Published

2022

14. Evolution of scalar field resonances in a braneworld

Author

Tan, Qin, Zhang, Yu-Peng, Guo, Wen-Di, Chen, Jing, Zhu, Chun-Chun, and Liu, Yu-Xiao

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

In this work, we investigate numerical evolution of massive Kaluza-Klein (KK) modes of a scalar field in a thick brane. We derive the Klein-Gordon equation in five dimensional spacetime, and obtain the evolution equation and the Schr\"odinger-like equation. With the resonances of the scalar KK modes as the initial data, the scalar field is evolved with the maximally dissipative boundary condition. The results show that there are scalar KK resonant particles with long life on the brane, which indicates that these resonances might be viewed as one of the candidates for dark matter., Comment: 10 pages, 5 figures. improved version

Published

2022

15. Efficacy of immune checkpoint inhibitors for NSCLC in patients with different age: A systematic review and meta-analysis

Author

Zhang, Qi, Liang, Xiao-yan, Wang, Ze-sheng, Sun, An, Cao, Tin-bao, Zhang, Yu-Peng, Li, Nan, Yi, Tong-ying, and Qu, Kun-Peng

Published

2024

16. Fluorescent carbon dots based on nitrogen doped dialdehyde starch for highly selective Fe3+/glyphosate detection and its applications

Author

Liang, Le, Liu, Yong-qing, Huang, Chan, Han, Mei, Yao, Ben-yue, Leng, Yan-li, Li, Xiao-hong, Zhang, Yu-peng, and Cai, Xiao-hua

Published

2024

17. IL6 and WNK2 polymorphisms and prognosis in patients with intracerebral hemorrhage receiving edaravone

Author

Zhang, Yu-Peng, Wang, Sai, Yao, Tian-Xing, Zou, Xue-Lun, Li, Si, Chen, Lei, Zhang, Xiang-Bin, Chen, Jun-You, Zeng, Yi, and Zhang, Le

Published

2025

18. Effects of tidal charge on magnetic reconnection and energy extraction from spinning braneworld black hole

Author

Wei, Shao-Wen, Wang, Hui-Min, Zhang, Yu-Peng, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

Recent study shows that the magnetic reconnection can serve as an efficient mechanism to extract energy from rapidly spinning black holes. In this paper, we consider the effects of the tidal charge on the energy extraction via the magnetic reconnection in the backgrounds of a spinning braneworld black hole. With the increase of the tidal charge, we find that both the energies of the accelerated plasma and decelerated plasma decrease for the observer located at infinity. To achieve the purpose extracting the net energy from the black hole, the decelerated plasma should take negative energy. Then we observe that the power of the energy extraction via the magnetic reconnection grows with the tidal charge. Meanwhile, the efficiency also increases with the tidal charge indicating that the spinning braneworld black hole with positive tidal charge is more efficient than the Kerr black hole. Compared with the Blandford-Znajek mechanism, the magnetic reconnection process shall have a higher power for positive tidal charge. These results indicate that the tidal charge has a significant effect on the energy extraction via the magnetic reconnection process., Comment: 15 pages and 9 figures

Published

2022

19. Multi-kink brane in Gauss-Bonnet gravity and its stability

Author

Xu, Na, Chen, Jing, Zhang, Yu-Peng, and Liu, Yu-Xiao

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

Einstein-Gauss-Bonnet gravity in high dimensional spacetime is intriguing. Here, the properties of thick branes generated by a bulk scalar field in the five-dimensional Einstein-Gauss-Bonnet gravity were studied. With the help of the superpotential method, we obtain a series of multi-kink brane solutions. We also analyze the linear stability of the brane system under tensor perturbations and prove that they are stable. The massless graviton is shown to be localized near the brane and hence the four-dimensional Newtonian potential can be recovered. By comparing the properties of these thick branes under different superpotentials we find with some specific choice of superpotential the Gauss-Bonnet term can determine the scalar field are multi-kink or single kink., Comment: 17 pages, 18 figures

Published

2022

20. 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

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

The destruction of the event horizon of a nonsingular black hole, which is not prevented by the weak cosmic censorship conjecture, might provide us the possibility to access quantum regime of gravity inside black hole. We investigate the possibility of overspinning a nonsingular rotating quantum-corrected black hole by a test particle and a scalar field in this paper, and analyse the effect of the quantum parameter on the destruction of the event horizon. For the test particle injection, both extremal and near-extremal black holes cannot be overspun due to the existence of the quantum parameter. And the larger the quantum parameter the harder the black hole to be overspun. It seems that the quantum parameter acts as a protector to prevent the black hole to be destroyed. However, for the test scalar field scattering, both extremal and near-extremal black holes can be destroyed. Due to the loop quantum gravity correction, the angular velocity of the extremal black hole shifts from that of the extremal Kerr black hole. This provides a small range of wave modes to destroy the event horizon of the quantum-corrected black hole., Comment: 19 pages, 1 figure, published version

Published

2022

21. Equatorial orbits of spinning test particle in rotating boson star

Author

Zhang, Yu-Peng, Zeng, Yan-Bo, Wang, Yong-Qiang, Wei, Shao-Wen, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology

Abstract

In this paper, we study the circular orbit of the spinning test particle in the background of a rotating boson star. Using the pole-dipole approximation and neglecting the back-reaction of the spinning test particle on the spacetime, the equation of motion of the spinning test particle is described by the Mathisson-Papapetrou-Dixon equation. We solve this equation under the Tulczyjew spin-supplementary condition and obtain the four-momentum and four-velocity of the spinning test particle. Quite different from the spinless particle, the effective potential of the spinning particle with zero orbital angular momentum goes to infinite at the center of the rotating boson star. This will lead to the fact that the spinning particle can not pass through the center of the boson star. However, when the spin angular momentum and orbital angular momentum satisfy $2\bar{s}+\bar{l}=0$, the effective potential is not divergent anymore and the spinning particle can pass through the center of the rotating boson star. {We still investigate how the spin affects the structure of the circular orbits and we find that the spin will induce the larger or smaller regions of no circular orbits, unstable circular orbits, and stable circular orbits.} Moreover, the radius and energy of the circular orbit will be decreased or increased by the particle spin. These results will have an important application in testing the gravitational waves in the boson star background., Comment: 11 pages, 6 figures

Published

2022

22. Motion of Spinning Particles around Electrically Charged Black Hole in Eddington-inspired Born-Infeld Gravity

Author

Yang, Ke, Gu, Bao-Min, and Zhang, Yu-Peng

Subjects

General Relativity and Quantum Cosmology

Abstract

A test particle possessing spin angular momentum moves along a non-geodesic path due to an additional spin-curvature force. We study the spinning test particle moving in the vicinity of the electrically charged black hole formation in Eddington-inspired Born-Infeld (EiBI) gravity. Through the numerical analysis of its effective potential and orbits, it is found that the orbital eccentricity reduces as the deviation parameter $\kappa$ increases. By comparing the orbits for the observed stars around Sagittarius A*, we conclude that the observed orbits with too large radii can not give a stringent constraint with acceptable magnitude. To dig out the potential observation effects of the relations between the orbits and parameter $\kappa$, we mainly focus on the orbits in the vicinity of black hole in this paper. The parameters of inner most stable circular orbit (ISCO) decrease monotonously with $\kappa$ when the spin angular momentum is small, however they change non-monotonously with $\kappa$ when the spin is large enough. Moreover, the spin dependences of ISCO parameters have similar behavior to that of Reissner-Nordstr\"om (RN) black hole. We analyze the causality of the circular orbits by using the superluminal constraint condition as well. As a result, two new parameter regions may emerge in case of large $\kappa$, where the particle has two stable circular orbits with one subluminal and the other superluminal., Comment: 14 pages, 29 figures

Published

2021

23. Relationship between retinal volume changes and the prognosis of BRVO-ME treated with ranibizumab

Author

Xing, Zhen, Liu, Hong, Sun, Yan, Zhang, Yu-peng, Xing, Xiu-ming, Yang, Kai-li, Zhao, Jun, and Wang, Shu-na

Published

2024

24. Rotating hybrid axion-miniboson stars

Author

Zeng, Yan-Bo, Cui, Si-Yuan, Li, Hong-Bo, Sun, Shi-Xian, Zhang, Yu-Peng, and Wang, Yong-Qiang

Published

2024

25. High-resolution magnetic resonance imaging-based radiomic features aid in selecting endovascular candidates among patients with cerebral venous sinus thrombosis

Author

Chang, Yu-zhou, Zhu, Hao-Yu, Song, Yu-Qi, Tong, Xu, Li, Xiao-Qing, Wang, Yi-Long, Dong, Ke-Hui, Jiang, Chu-Han, Zhang, Yu-Peng, and Mo, Da-Peng

Published

2023

26. Advances in acupuncture regulation on the autonomic nervous system from 2013 to 2022: A bibliometric analysis via citespace

Author

Li Yan-qiu, Yao Jun-peng, Yan Xiang-yun, Wang Wen, Zhang Yu-peng, Yuan Lu, Hou Yu-jun, and Li Ying

Subjects

Acupuncture, Autonomic nervous system, Bibliometric analysis, CiteSpace, Other systems of medicine, RZ201-999

Abstract

Objective: To understand research advances and frontiers of acupuncture regulation on the autonomic nervous system (ANS) over the past decade through a bibliometric analysis. Methods: Publications related to acupuncture regulation on the ANS were retrieved from the Web of Science Core Collection (WoSCC) database. CiteSpace software was used to analyze the datasets and generate knowledge maps. Results: A total of 445 relevant publications published between 2013 and 2022 were included in this bibliometric analysis. The number of annual publications fluctuated from 2013 to 2016 but increased gradually from 2016 to 2022. China produced the highest number of publications, while the USA established the most extensive cooperation relationships. China Academy of Chinese Medical Science was the most productive institution. Chen Jiande D.Z. was the most prolific author and Rong Peijing holds the most extensive cooperation network. Han Jisheng was the most co-cited author. Relevant research involved mechanism exploration and clinical efficacy research, and “anti-inflammatory effect” was the most active research topic, especially cholinergic anti-inflammatory mechanisms. The most cited references mainly focused on inflammation. Gastrointestinal and cardiovascular disorders were the most active medical conditions studied in this field. Conclusions: Research related to acupuncture regulation on the ANS mainly focused on anti-inflammation, and regulating gastrointestinal and cardiovascular function over the past decade. However, the mechanisms of the autonomic effects of acupuncture need further investigation. High-quality clinical studies are required to determine the optimal parameters of acupuncture for clinical application.

Published

2024

27. Gravitational radiation pulses from Extreme-Mass-Ratio-Inspiral system with a supermassive boson star

Author

Zhang, Yu-Peng, Zeng, Yan-Bo, Wang, Yong-Qiang, Wei, Shao-Wen, Seoane, Pau Amaro, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology

Abstract

Future space-borne gravitational-wave detectors will observe the gravitational waves in the milli-Hz. Extreme-mass-ratio inspirals with central supermassive black holes are very important sources that could provide the information of the vicinity of black holes. The event horizon separates the inner region of a black hole and there is nothing that can escape from this region. When the central supermassive compact object is a regular and horizonless rotating boson star, a small body could pass through the center and follow novel types of orbits. These will generate the gravitational waves that can not be obtained in the scenario corresponding to an extreme-mass-ratio inspiral with a central supermassive black hole. This can be used to examine whether a supermassive rotating boson star is present at the centers of galaxies. In this work, we consider an extreme-mass-ratio inspiral system described by a small compact object inspiralling into a central supermassive rotating boson star. Integrating four types of special equatorial geodesics and using the numerical kludge method with quadrupole approximation, we obtain the corresponding gravitational waveforms and find that there are high-frequency gravitational radiation pulses in such system. The frequencies of the gravitational radiation pulses could be in the magnitude of $10^{-1}$Hz and the whole gravitational wave parts are in the milli-Hz. By assuming the masses of the central supermassive rotating boson star and small compact object to be $10^6 M_\odot$ and $10 M_\odot$ and assuming a distance of $1\text{Gpc}$, we show that the gravitational radiation pulses could be detected by the space-borne gravitational-wave detectors. Our results will provide a possible evidence to distinguish the astrophysical compact objects in the galactic centers.

Published

2021

28. Motion of test particle in rotating boson star

Author

Zhang, Yu-Peng, Zeng, Yan-Bo, Wang, Yong-Qiang, Wei, Shao-Wen, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology

Abstract

Motion of a test particle plays an important role in understanding the properties of a spacetime. As a new type of the strong gravity system, boson stars could mimic black holes located at the center of galaxies. Studying the motion of a test particle in the spacetime of a rotating boson star will provide the astrophysical observable effects if a boson star is located at the center of a galaxy. In this paper, we investigate the timelike geodesic of a test particle in the background of a rotating boson star with angular number $m=(1, 2, 3)$. With the change of angular number and frequency, a rotating boson star will transform from the low rotating state to the highly relativistic rapidly rotating state, the corresponding Lense-Thirring effects will be more and more significant and it should be studied in detail. By solving the four-velocity of a test particle and integrating the geodesics, we investigate the bound orbits with a zero and nonzero angular momentum. We find that a test particle can stay more longer time in the central region of a boson star when the boson star becomes from low rotating state to highly relativistic rotating state. Comparing the periapse values of the orbits obtained in rotating boson stars and the corresponding orbits of the observed stars orbiting Sagittarius $A^*$, we discuss the possible observable effects of the astrophysical boson star in the Galactic center., Comment: 17 pages, 16 figures

Published

2021

29. Genome-wide identification and expression analysis of SnRK2 gene family in common bean (Phaseolus vulgaris L.) in response to abiotic stress

Author

Cai, De-Bao, Sun, Xin-Ying, Zhang, Yu-Peng, Yang, Shu-Qiong, Zhang, Jun, and Chen, Ji-Bao

Published

2023

30. Schiff base functionalized dialdehyde starch for enhanced removal of Cu (II): Preparation, performances, DFT calculations

Author

Liang, Le, Han, Mei, Liu, Yong-qing, Huang, Chan, Leng, Yan-li, Zhang, Yu-peng, and Cai, Xiao-hua

Published

2024

31. 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

General Relativity and Quantum Cosmology, High Energy Physics - Theory

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., Comment: 6 pages, 1 figure, accepted by Physics Letters B

Published

2020

32. Gravitational resonances on $f(T)$-branes

Author

Tan, Qin, Guo, Wen-Di, Zhang, Yu-Peng, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

In this work, we investigate the gravitational resonances in various $f(T)$-brane models with the warp factor $\text{e}^{A(y)}=\tanh\big(k(y+b)\big)-\tanh\big(k(y-b)\big)$. For three kinds of $f(T)$, we give the solutions to the system. Besides, we consider the tensor perturbation of vielbein and obtain the effective potentials by the Kaluza-Klein (KK) decomposition. Then, we analyze what kind of effective potential can produce the gravitational resonances. Effects of different parameters on the gravitational resonances are analysed. The lifetimes of the resonances could be long enough as the age of our universe in some ranges of the parameters. This indicates that the gravitational resonances might be considered as one of the candidates of dark matter. Combining the current experimental observations, we constrain the parameters for these brane models., Comment: 12 pages, 14 figures

Published

2020

33. Fundamental energy scale of the thick brane in mimetic gravity

Author

Sui, Tao-Tao, Zhang, Yu-Peng, Gu, Bao-Min, and Liu, Yu-Xiao

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

In this paper, thick branes generated by the mimetic scalar field with Lagrange multiplier formulation are investigated. We give three typical thick brane background solutions with different asymptotic behaviors and show that all the solutions are stable under tensor perturbations. The effective potentials of the tensor perturbations exhibit as volcano potential, Po\"{o}schl-Teller potential, and harmonic oscillator potential for the three background solutions, respectively. All the tensor zero modes (massless gravitons) of the three cases can be localized on the brane. We also calculate the corrections to the Newtonian potential. On a large scale, the corrections to the Newtonian potential can be ignored. While on a small scale, the correction from the volcano-like potential is more pronounced than the other two cases. Combining the specific corrections to the Newtonian potential of these three cases and the latest results of short-range gravity experiments, we get the constraint on the scale parameter as $k\gtrsim 10^{-4}$eV, and constraint on the corresponding five-dimensional fundamental scale as $M_\ast \gtrsim10^5$TeV., Comment: 12 pages, 5 fugures

Published

2020

34. Spinning test particle in four-dimensional Einstein-Gauss-Bonnet Black Hole

Author

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

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

In this paper, we investigate the motion of a classical spinning test particle orbiting around a static spherically symmetric black hole in a novel four-dimensional Einstein-Gauss-Bonnet gravity [D. Glavan and C. Lin, Phys. Rev. Lett. 124, 081301 (2020)]. We find that the effective potential of a spinning test particle in the background of the black hole has two minima when the Gauss-Bonnet coupling parameter $\alpha$ is nearly in a special range $-6.1<\alpha/M^2<-2$ ($M$ is the mass of the black hole), which means such particle can be in two separate orbits with the same spin angular momentum and orbital angular momentum. We also investigate the innermost stable circular orbits of the spinning test particle and find that the effect of the particle spin on the the innermost stable circular is similar to the case of the four-dimensional black hole in general relativity., Comment: 10 pages, 5 figures

Published

2020

35. Tensor stability in Born-Infeld determinantal gravity

Author

Yang, Ke, Zhang, Yu-Peng, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

We consider the transverse-traceless tensor perturbation of a spatial flat homogeneous and isotropic spacetime in Born-Infeld determinantal gravity, and investigate the evolution of the tensor mode for two solutions in the early universe. For the first solution where the initial singularity is replaced by a regular geometric de Sitter inflation of infinite duration, the evolution of the tensor mode is stable for the parameter spaces $\alpha<-1$, $\omega\geq-1/3$ and $\alpha=-1$, $\omega>0$. For the second solution where the initial singularity is replaced by a primordial brusque bounce, which suffers a sudden singularity at the bouncing point, the evolution of the tensor mode is stable for all regions of the parameter space. Our calculation suggests that the tensor evolution can hold stability in large parameter spaces, which is a remarkable property of Born-Infeld determinantal gravity. We also constrain the theoretical parameter $|\lambda|\geq 10^{-38} \text{m}^{-2}$ by resorting to the current bound on the speed of the gravitational waves., Comment: 14 pages, added a general discussion on the tensor stability in Sec. 3, and added Sec. 5 on the parameter constraint, published version

Published

2018

36. Gravitational resonances in mimetic thick branes

Author

Zhong, Yi, Zhang, Yu-Peng, Guo, Wen-Di, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology

Abstract

In this work, we investigate gravitational resonances in both single and double mimetic thick branes, which can provide a new way to detect the extra dimension. For the single brane model, we apply the relative probability proposed in [Phys. Rev. D. 80 (2009) 065019]. For the double brane model, we investigate the resonances quasi-localized on the double brane, on the sub-branes and between the sub-branes, respectively. To investigate the resonances quasi-localized on the double brane, we introduce two different definitions of the relative probability and find that the corresponding mass spectra of gravitational resonances are almost the same. For the gravitational resonances quasi-localized on sub-branes and between the sub-branes, the influence of the distance between the two sub-branes and the thickness of the sub-branes are analyzed and new features are found in both cases., Comment: 19 pages, 13 figures

Published

2018

37. Motion deviation of test body induced by spin and cosmological constant in extreme mass ratio inspiral binary system

Author

Zhang, Yu-Peng, Wei, Shao-Wen, Amaro-Seoane, Pau, Yang, Jie, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology

Abstract

The future space-borne detectors will provide the possibility to detect gravitational waves emitted from extreme mass ratio inspirals of stellar-mass compact objects into supermassive black holes. It is natural to expect that the spin of the compact object and cosmological constant will affect the orbit of the inspiral process and hence lead to the considerable phase shift of the corresponding gravitational waves. In this paper, we investigate the motion of a spinning test particle in the spinning black hole background with a cosmological constant and give the order of motion deviation induced by the particle's spin and the cosmological constant by considering the corresponding innermost stable circular orbit. By taking the neutron star or kerr black hole as the small body, the deviations of the innermost stable circular orbit parameters induced by the particle's spin and cosmological constant are given. Our results show that the deviation induced by particle's spin is much larger than that induced by cosmological constant when the test particle locates not very far away from the black hole, the accumulation of phase shift during the inspiral from the cosmological constant can be ignored when compared to the one induced by the particle's spin. However when the test particle locates very far away from the black hole, the impact from the cosmological constant will increase dramatically. Therefore the accumulation of phase shift for the whole process of inspiral induced by the cosmological constant and the particle's spin should be handled with caution., Comment: 12 pages, 2 figures, 7 tables

Published

2018

38. Hierarchical PVDF-HFP/ZnO composite nanofiber–based highly sensitive piezoelectric sensor for wireless workout monitoring

Author

Li, Guo-Yi, Li, Jian, Li, Zhao-Jian, Zhang, Yu-Peng, Zhang, Xiao, Wang, Zi-Jun, Han, Wen-Peng, Sun, Bin, Long, Yun-Ze, and Zhang, Hong-Di

Published

2022

39. Constraints on generalized Eddington-inspired Born-Infeld branes

Author

Lin, Zi-Chao, Yang, Ke, Zhang, Yu-Peng, Wang, Jian, and Liu, Yu-Xiao

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

The Palatini $f(|\hat{\Omega}|)$ gravity is a generalized theory of the Eddington-inspired Born-Infeld gravity, where $\Omega_{~N}^{K}\equiv\delta_{~N}^{K}+bg^{KL}R_{LN}(\Gamma)$ is an auxiliary tensor constructed with the spacetime metric $g$ and independent connection $\Gamma$. In this paper, we study $f(|\hat{\Omega}|)$ theory with $f(|\hat{\Omega}|)=|\hat{\Omega}|^{\frac{1}{2}+n}$ in the thick brane scenario and give some constraints on the brane model. We finally found an analytic solution of the thick brane generated by a single scalar field. The behavior of the negative energy density denotes the localization of the thick brane at the origin of the extra dimension. In our braneworld, the warp factor is divergent at the boundary of the extra dimension while the brane system is asymptotically anti$-$de Sitter. It is shown that the tensor perturbation of the brane is stable and the massless graviton is localized on the thick brane. Therefore, the effective Einstein-Hilbert action on the brane can be rebuilt in the low-energy approximation. According to the recent test of the gravitational inverse-square law, we give some constraints on the $f(|\hat{\Omega}|)$ brane., Comment: 14 pages, 4 figures, published version

Published

2018

40. Deformable Graph Convolutional Networks Based Point Cloud Representation Learning

Author

LI Zong-min, ZHANG Yu-peng, LIU Yu-jie, LI Hua

Subjects

graph neural convolutional networks, representation learning, point clouds, local feature, Computer software, QA76.75-76.765, Technology (General), T1-995

Abstract

Although the sparseness and irregularity of point cloud data have been successfully solved by deep neural networks.However,how to learn the local features of point clouds is still a challenging problem.Existing networks for point cloud representation learning have the problem of extracting features independently between points and points.To this end,a new spatial graph convolution is proposed.Firstly,an adaptive hole K-nearest neighbor algorithm is proposed when constructing the graph structure to maximize local topo-logical structure information.Secondly,the angle feature between each edge of the convolution kernel and the receptive field map is added to the convolution,which ensures more discriminative feature extraction.Finally,in order to make full use of local features,a novel graph pyramid pooling is proposed.This algorithm is tested on the standard public data sets ModelNet40 and ShapeNet,and the accuracy is 93.2% and 86.5% respectively.Experimental results show that the proposed algorithm is at a leading level in point cloud representation learning.

Published

2022

41. Evolution of scalar field resonances in a braneworld

Author

Tan, Qin, Zhang, Yu-Peng, Guo, Wen-Di, Chen, Jing, Zhu, Chun-Chun, and Liu, Yu-Xiao

Published

2023

42. Innermost stable circular orbit of spinning particle in charged spinning black hole background

Author

Zhang, Yu-Peng, Wei, Shao-Wen, Guo, Wen-Di, Sui, Tao-Tao, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

In this paper we investigate the innermost stable circular orbit (ISCO) for a classical spinning test particle in the background of Kerr-Newman black hole. It is shown that the orbit of the spinning particle is related to the spin of the test particle. The motion of the spinning test particle will be superluminal if its spin is too large. We give an additional condition by considering the superluminal constraint for the ISCO in the black hole backgrounds. We obtain numerically the relations between the ISCO and the properties of the black holes and the test particle. It is found that the radius of the ISCO for a spinning test particle is smaller than that of a non-spinning test particle in the black hole backgrounds., Comment: 9 pages, 9 figures

Published

2017

43. Thick branes with inner structure in mimetic gravity

Author

Zhong, Yi, Zhong, Yuan, Zhang, Yu-Peng, and Liu, Yu-Xiao

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

In this paper, thick branes generated by mimetic scalar field are investigated. Three typical thick brane models are constructed and the linear tensor and scalar perturbations are analyzed. These branes have different inner structures, some of which are absent in general relativity. For each brane model, the solution is stable under both tensor and scalar perturbations. The tensor zero modes are localized on the branes, while the scalar perturbations do not propagate and they are not localized on the brane. As the branes split into multi sub-branes for specific parameters, the potentials of the tensor perturbations also split into multi-wells, and this may lead to new phenomenon in the resonance of the tensor perturbation and the localization of matter fields., Comment: 7 pages, 8 figures

Published

2017

44. Localization and mass spectra of various matter fields on Weyl thin brane

Author

Sui, Tao-Tao, Zhao, Li, Zhang, Yu-Peng, and Xie, Qun-Ying

Subjects

General Relativity and Quantum Cosmology

Abstract

It has been shown that the thin brane model in a five-dimensional Weyl gravity can deal with the wrong-signed Friedmann-like equation in the Randall--Sundrum-1 (RS1) model. In the Weyl brane model, there are also two branes with opposite brane tensions, but the four-dimensional graviton (the gravity zero mode) is localized near the negative tension brane, while our four-dimensional universe is localized on the positive tension brane. In this paper, we consider the mass spectra of various bulk matter fields (i.e., scalar, vector, and fermion fields) on the Weyl brane. It is shown that the zero modes of those matter fields can be localized on the positive tension brane under some conditions. The mass spectra of the bulk matter fields are equidistant for the higher excited states, and relatively sparse for the lower excited states. The size of the extra dimension determines the gap of the mass spectra. We also consider the correction to the Newtonian potential in this model and it is proportional to $1/r^{3}$., Comment: 15 pages, 11 figures, 1 table

Published

2017

45. Fermion localization mechanism with derivative geometrical coupling on branes

Author

Li, Yan-Yan, Zhang, Yu-Peng, Guo, Wen-Di, and Liu, Yu-Xiao

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

In order to localize fermions on branes with codimension one, one usually introduces the Yukawa coupling between fermions and background scalar fields or the recently proposed derivative fermion-scalar coupling in [Phys. Rev. D 89 (2014) 086001]. In this paper, we explore the coupling between a spinor field $\Psi$ and the scalar curvature of spacetime $R$, $\eta\Psi\Gamma^M\partial_M F(R)\gamma^5\bar{\Psi}$ with $F(R)$ a function of $R$, to investigate localization of the fermion. Because of $Z_2$ symmetry of the extra dimension, the new coupling mechanism proposed here can easily deal with the problem encountered in the Yukawa coupling with even background scalar fields. More importantly, the new mechanism will also work for the branes without background scalar fields. By investigating three examples, we find that fermions can be localized on the branes with the new mechanism., Comment: v2: 27 pages, 11 figures, two references added

Published

2017

46. Stratocorticium sinensis gen. et sp. nov. and Cericium gloeocystidiatum sp. nov. (Cyphellaceae , Agaricales) from East Asia.

Author

Zhang, Yu-Peng, Li, Yue, Nakasone, Karen K., and He, Shuang-Hui

Subjects

*BIOLOGICAL classification, *FUNGI classification, *MOLECULAR phylogeny, *SPECIES diversity, *AGARICALES

Abstract

Cyphellaceae, a small and under-studied family of Agaricales, includes mostly saprophytic taxa with varied basidiomes. In this study, we focus on wood-decay species with corticioid or stereoid basidiomes. Phylogenetic analyses of concatenated ITS-nrLSU sequences uncovered seven generic lineages of corticioid or stereoid fungi—Acanthocorticium, Cericium, Chondrostereum, Cunninghammyces, Gloeostereum, Granulobasidium, and Stratocorticium gen. nov. The genus Cericium is shown to be in the Cyphellaceae family, and two new species, Cericium gloeocystidiatum and Stratocorticium sinensis, are described from East Asia. Morphologically, Ce. gloeocystidiatum is characterized by resupinate basidiomes with smooth hymenophores, a dimitic hyphal system with clamped generative hyphae and micro-binding hyphae, cystidia with resinous-like or golden yellow contents, and ellipsoid basidiospores. Stratocorticium is monotypic, differing from Cericium by a trimitic hyphal system of clamped generative, micro-binding, and brown, thick-walled skeletal-like hyphae, clavate to cylindrical cystidia with homogenous, colorless contents, and hyphidia. Descriptions and illustrations are provided for the new taxa and Cericium luteoincrustatum, and a key to corticioid or stereoid genera in Cyphellaceae is included. [ABSTRACT FROM AUTHOR]

Published

2024

47. Role of Coulomb interaction in elastic pion-proton scattering from holography

Author

Zhang, Yu-Peng, primary, Chen, Xun, additional, Li, Xiao-Hua, additional, and Watanabe, Akira, additional

Published

2024

48. Charged spinning black holes as accelerators of spinning particles

Author

Zhang, Yu-Peng, Gu, Bao-Min, Wei, Shao-Wen, Yang, Jie, and Liu, Yu-Xiao

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

It is well known that some black holes can act as accelerators for particles without spin. Recently, there are some works considering collision of two spinning particles in the background of Schwarzschild and Kerr black holes and it was shown that {the center-of-mass energy of the test particles is related to the spin}. In this paper we extend the results to some more general cases. We consider Kerr-Newman black holes as accelerators for spinning particles. We derive the center-of-mass energy of the spinning particles and use numerical method to investigate how the center-of-mass energy is affected by the properties of the black holes and spinning particles., Comment: 10 pages, 11 figures, Superluminal region in the parameter space discussed, to be published in PRD

Published

2016

49. Full linear perturbations and localization of gravity on $f(R,T)$ brane

Author

Gu, Bao-Min, Zhang, Yu-Peng, Yu, Hao, and Liu, Yu-Xiao

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We study the thick brane world system constructed in the recently proposed $f(R,T)$ theories of gravity, with $R$ the Ricci scalar and $T$ the trace of the energy-momentum tensor. We try to get the analytic background solutions and discuss the full linear perturbations, especially the scalar perturbations. We compare how the brane world model is modified with that of general relativity coupled to a canonical scalar field. It is found that some more interesting background solutions are allowed, and only the scalar perturbation mode is modified. There is no tachyon state exists in this model and only the massless tensor mode can be localized on the brane, which recovers the effective four-dimensional gravity. These conclusions hold provided that two constraints on the original formalism of the action are satisfied., Comment: v3: 8 pages, 2 figures, improved version with minor corrections, accepted by EPJC

Published

2016

50. Resonance spectrum of a bulk fermion on branes

Author

Zhang, Yu-Peng, Du, Yun-Zhi, Guo, Wen-Di, and Liu, Yu-Xiao

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

It is known that there are two mechanisms for localizing a bulk fermion on a brane, one is the well-known Yukawa coupling and the other is the new coupling proposed in [Phys. Rev. D 89, 086001 (2014)]. In this paper, we investigate localization and resonance spectrum of a bulk fermion on the same branes with the two localization mechanisms. It is found that both the two mechanisms can result in a volcano-like effective potential of the fermion Kaluza-Klein modes. The left-chiral fermion zero mode can be localized on the brane and there exist some discrete massive fermion Kaluza-Klein modes that quasilocalized on the brane (also called fermion resonances). The number of the fermion resonances increases linearly with the coupling parameter., Comment: 14 pages, 18 figures

Published

2016