Your search keyword '"Ze Cheng"' showing total 800 results

1. Accurate Thermodynamic Properties of Ideal Bosons in a Highly Anisotropic 2D Harmonic Potential

Author

Ze Cheng

Subjects

rigorous results in statistical mechanics, Bose–Einstein condensation, cold atoms, Science, Astrophysics, QB460-466, Physics, QC1-999

Abstract

One can derive an analytic result for the issue of Bose–Einstein condensation (BEC) in anisotropic 2D harmonic traps. We find that the number of uncondensed bosons is represented by an analytic function, which includes a series expansion of q-digamma functions in mathematics. One can utilize this analytic result to evaluate various thermodynamic functions of ideal bosons in 2D anisotropic harmonic traps. The first major discovery is that the internal energy of a finite number of ideal bosons is a monotonically increasing function of anisotropy parameter p. The second major discovery is that, when p≥0.5, the changing with temperature of the heat capacity of a finite number of ideal bosons possesses the maximum value, which happens at critical temperature Tc. The third major discovery is that, when 0.1≤p<0.5, the changing with temperature of the heat capacity of a finite number of ideal bosons possesses an inflection point, but when p<0.1, the inflection point disappears. The fourth major discovery is that, in the thermodynamic limit, at Tc and when p≥0.5, the heat capacity at constant number reveals a cusp singularity, which resembles the λ-transition of liquid helium-4. The fifth major discovery is that, in comparison to 2D isotropic harmonic traps (p=1), the singular peak of the specific heat becomes very gentle when p is lowered.

Published

2023

2. Free-Surface Velocity Measurement Using Direct Sensor Orientation-Based STIV

Author

Zhen Zhang, Lijun Zhao, Boyuan Liu, Tiansheng Jiang, and Ze Cheng

Subjects

PIV, STIV, velocity measurement, GCPs-free, direct sensor orientation, Mechanical engineering and machinery, TJ1-1570

Abstract

Particle image velocimetry (PIV) is a quantitative flow visualization technique, which greatly improves the ability to characterize various complex flows in laboratory and field environments. However, the deployment of reference objects or ground control points (GCPs) for velocity calibration is still a challenge for in situ free-surface velocity measurements. By combining space-time image velocimetry (STIV) with direct sensor orientation (DSO) photogrammetry, a laser distance meter (LDM)-supported photogrammetric device is designed, to realize the GCPs-free surface velocity measurement under an oblique shooting angle. The velocity calibration with DSO is based on the collinear equation, while the lens distortion, oblique shooting angle, water level variation, and water surface slope are introduced to build an imaging measurement model with explicit physical meaning for parameters. To accurately obtain the in situ position and orientations of the camera utilizing the LDM and its embedded tilt sensor, the camera’s intrinsic parameters and relative position within the LDM are previously calibrated with a planar chessboard. A flume experiment is designed to evaluate the uncertainty of optical flow estimation and velocity calibration. Results show that the proposed DSO-STIV has good transferability and operability for in situ measurements. It is superior to propeller current meters and surface velocity radars in characterizing shallow free-surface flows; this is attributed to its non-intrusive, whole-field, and high-resolution features. In addition, the combined uncertainty of free-surface velocity measurement is analyzed, which provides an alternative solution for error assessment when comparing measurement failures.

Published

2022

3. Mass function of stellar black holes as revealed by the LIGO-Virgo-KAGRA observations

Author

Dong, Xiao-Fei, Huang, Yong-Feng, Zhang, Zhi-Bin, Li, Xiu-Juan, Zou, Ze-Cheng, Hu, Chen-Ran, Deng, Chen, and Liu, Yang

Subjects

General Relativity and Quantum Cosmology, Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology, 85-08, 62L10, 62G09, 62E10, F.2.1

Abstract

Ninety gravitational wave events have been detected by the LIGO-Virgo-KAGRA network and are released in the Gravitational-Wave Transient Catalog. Among these events, 83 cases are definitely binary black hole mergers since the masses of all the objects involved significantly exceed the upper limit of neutron stars. The black holes in these merger events naturally form two interesting samples, a pre-merger sample that includes all the black holes before the mergers and a post-merger sample that consists of the black holes generated during the merging processes. The former represents black holes that once existed in the Universe, while the latter represents newly born black holes. Here we present a statistical analysis on these two samples. The non-parametric $\tau$ statistic method is adopted to correct for the observational selection effect. The Lynden-Bell's $C^{-}$ method is further applied to derive the mass distribution and density function of black holes. It is found that the mass distribution can be expressed as a broken power-law function. More interestingly, the power-law index in the high mass region is comparable for the two samples. The number density of black holes is found to depend on redshift as $\rho(z) \propto z^{-2.06}$ -- $z^{-2.12}$ based on the two samples. Implications of these findings on the origin of black holes are discussed., Comment: 18 pages, 7 figures, 1 table, ApJ accepted

Published

2024

4. Recent progresses in strange quark stars

Author

Zhang, Xiao-Li, Huang, Yong-Feng, and Zou, Ze-Cheng

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

According to the hypothesis that strange quark matter may be the true ground state of matter at extremely high densities, strange quark stars should be stable and could exist in the Universe. It is possible that pulsars may actually be strange stars, but not neutron stars. Here we present a short review on recent progresses in the field of strange quark stars. First, three popular phenomenological models widely used to describe strange quark matter are introduced, with special attention being paid on the corresponding equation of state in each model. Combining the equation of state with the Tolman-Oppenheimer-Volkov equations, the inner structure and mass-radius relation can be obtained for the whole sequence of strange stars. Tidal deformability and oscillations (both radial and non-radial oscillations), which are sensitive to the composition and the equations of state, are then described. Hybrid stars as a special kind of quark stars are discussed. Several other interesting aspects of strange stars are also included. For example, strong gravitational wave emissions may be generated by strange stars through various mechanisms, which may help identify strange stars via observations. Especially, close-in strange quark planets with respect to their hosts may provide a unique test for the existence of strange quark objects. Fierce electromagnetic bursts could also be generated by strange stars. The energy may come from the phase transition of neutron stars to strange stars, or from the merger of binary strange stars. The collapse of the strange star crust can also release a huge amount of energy. It is shown that strange quark stars may be involved in short gamma-ray bursts and fast radio bursts., Comment: accepted for publication in: Frontiers in Astronomy and Space Sciences

Published

2024

5. What Powered the Kilonova-Like Emission After GRB 230307A in the Framework of a Neutron Star-White Dwarf Merger?

Author

Wang, Xiangyu Ivy, Yu, Yun-Wei, Ren, Jia, Yang, Jun, Zou, Ze-Cheng, and Zhu, Jin-Ping

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

The second brightest gamma-ray burst, GRB 230307A (with a duration $T_{90}$ ~ 40 s), exhibited characteristics indicative of a magnetar engine during the prompt emission phase. Notably, a suspected kilonova was identified in its follow-up optical and infrared observations. Here we propose that the origin of GRB 230307A is a neutron star-white dwarf (NS-WD) merger, as this could naturally interpret the long duration and the large physical offset from the center of its host galaxy. In the framework of such a NS-WD merger event, the late-time kilonova-like emission is very likely to be powered by the spin-down of the magnetar and the radioactive decay of $^{56}$Ni, rather than by the decay of r-process elements as these heavy elements may not be easy to be synthesized in a NS-WD merger. It is demonstrated that the above scenario can be supported by our fit to the late-time observational data, where a mass of ~ $10^{-3} \ \rm M_{\odot}$ $^{56}$Ni is involved in the ejecta of a mass of ~ $0.1 \ \rm M_{\odot}$. Particularly, the magnetar parameters required by the fit are consistent with those derived from the early X-ray observation., Comment: 9 pages; 4 figures; Accepted by ApJL

Published

2024

6. Gravitational Wave Emission from Close-in Strange Quark Planets Around Strange Stars with Magnetic Interactions

Author

Zhang, Xiao-Li, Zou, Ze-Cheng, Huang, Yong-Feng, Gao, Hao-Xuan, Wang, Pei, Cui, Lang, and Liu, Xiang

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

According to the strange quark matter hypothesis, strange planets may exist, which are planetary mass objects composed of almost equal numbers of up, down and strange quarks. A strange planet can revolve around its host strange star in a very close-in orbit. When it finally merges with the host, strong gravitational wave emissions will be generated. Here the gravitational waveforms are derived for the merging process, taking into account the effects of the strange star's magnetic field on the dynamics. Effects of the inclination angle are also considered. Templates of the gravitational waveforms are derived. It is found that the magnetic interactions significantly speed up the merging process. Coalescence events of such strange planetary systems occurring in our Galaxy as well as in local galaxies can be effectively detected by current and future gravitational experiments, which may hopefully provide a new method to test the strange quark matter hypothesis and probe the magnetic field of compact stars.

Published

2024

7. Double-Coil Dynamic Shielding Technology for Wireless Power Transmission in Electric Vehicles

Author

Yuan Li, Shumei Zhang, and Ze Cheng

Subjects

electromagnetic field, wireless power transfer, shielding, Technology

Abstract

During wireless charging, the transmission distance of electric vehicles varies, resulting in different levels of electromagnetic field leakage. An improved active shielding technology, the double-coil dynamic shielding technology, is proposed in this paper for wireless power transfer (WPT) systems with different transmission distances. Modeling, simulation, and experiments are performed for the WPT system with a double-coil dynamic shielding scheme and compared with other cases. The results show that the proposed double-coil dynamic shielding scheme is able to shield approximately 70% of the electromagnetic field leakage for WPT systems at different transmission distances. In addition, it essentially causes no degradation in transmission efficiency (only 3.1%). The effectiveness and feasibility of the proposed scheme are verified.

Published

2021

8. Optimizing ABA-based chemically induced proximity for enhanced intracellular transcriptional activation and modification response to ABA

Author

Zhou, Zeng, Wang, Yue-Qi, Zheng, Xu-Nan, Zhang, Xiao-Hong, Ji, Lu-Yao, Han, Jun-You, Zuo, Ze-Cheng, Mo, Wei-Liang, and Zhang, Li

Published

2024

9. Coupling of hole double quantum dot in planar germanium to a microwave cavity

Author

Kang, Yuan, Li, Zong-Hu, Kong, Zhen-Zhen, Li, Fang-Ge, Hao, Tian-Yue, Wei, Ze-Cheng, Deng, Song-Yan, Wang, Bao-Chuan, Li, Hai-Ou, Wang, Gui-Lei, Guo, Guang-Can, Cao, Gang, and Guo, Guo-Ping

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

In recent years, notable progress has been made in the study of hole qubits in planar germanium, and circuit quantum electrodynamics (circuit QED) has emerged as a promising approach for achieving long-range coupling and scaling up of qubits. Here, we demonstrate the coupling between holes in a planar germanium double quantum dot (DQD) and photons in a microwave cavity. Specifically, a real-time calibrated virtual gate method is developed to characterize this hybrid system, which in turn allows us to determine the typical parameters sequentially through single-parameter fitting instead of conventional multi-parameter fitting with additional uncertainty, and gives the hole-photon coupling rate of $g_0/2\pi$ = 21.7 MHz. This work is a step toward further research on hole-photon interactions and long-range qubit coupling in planar germanium. The experimental method developed in this work contributes to the more accurate and efficient characterization of hybrid cavity-QED systems., Comment: 11 pages, 4 figures

Published

2023

10. Variable-Order Equivalent Circuit Modeling and State of Charge Estimation of Lithium-Ion Battery Based on Electrochemical Impedance Spectroscopy

Author

Ji’ang Zhang, Ping Wang, Yushu Liu, and Ze Cheng

Subjects

lithium-ion battery, electrochemical impedance spectroscopy, equivalent circuit model, state of charge, Bayesian information criterion, Technology

Abstract

In the battery management system, it is important to accurately and efficiently estimate the state of charge (SOC) of lithium-ion batteries, which generally requires the establishment of a equivalent circuit model of the battery, whose accuracy and rationality play an important role in accurately estimating the state of lithium-ion batteries. The traditional single order equivalent circuit models do not take into account the changes of impedance spectrum under the action of multiple factors, nor do they take into account the balance of practicality and complexity of the model, resulting the low accuracy and poor practicability. In this paper, the theory of electrochemical impedance spectroscopy is used to guide and improve the equivalent circuit model. Based on the analysis of the variation of the high and intermediate frequency range of the impedance spectrum with the state of charge and temperature of the battery, a variable order equivalent model (VOEM) is proposed by Arrhenius equation and Bayesian information criterion (BIC), and the state equation and observation equation of VOEM are improved by autoregressive (AR) equations. Combined with the unscented Kalman filter (UKF), a SOC online estimation method is proposed, named VOEM-AR-UKF. The experimental results show that the proposed method has high accuracy and good adaptability.

Published

2021

11. Robustness of Fuzzy Reasoning Based on Schweizer–Sklar Interval-valued t-Norms

Author

Min-Xia Luo and Ze Cheng

Subjects

Schweizer–Sklar interval-valued operator, Interval-valued fuzzy connective, Interval-valued fuzzy inference, Robustness, Engineering (General). Civil engineering (General), TA1-2040, Mathematics, QA1-939

Abstract

In this paper, we focus on the parametric triple I algorithms by the combination of Schweizer–Sklar interval-valued operators and triple I principles for fuzzy reasoning. Firstly, we give the interval-valued triple I solutions based on Schweizer–Sklar interval-valued operators. Then, we investigate the sensitivity of Schweizer–Sklar interval-valued fuzzy connectives. Finally, we study the robustness of the triple I algorithms based on Schweizer–Sklar interval-valued t-norms (m∈(0,∞)). It shows that the quality of interval-valued fuzzy reasoning algorithms depends on the selection of interval-valued fuzzy connectives.

Published

2016

12. Redshift Dependence of the Low-energy Spectral Index of Gamma-Ray Bursts Revisited

Author

Zhang, Xiao-Li, Huang, Yong-Feng, and Zou, Ze-Cheng

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

A negative correlation was found to exist between the low-energy spectral index and the redshift of gamma-ray bursts (GRBs) by Amati(2002). It was later confirmed by Geng(2013) and Gruber(2014), but the correlation was also found to be quite dispersive when the sample size was significantly expanded. In this study, we have established two even larger samples of gamma-ray bursts to further examine the correlation. One of our sample is consisted of 316 GRBs detected by the Swift satellite, and the other one is consisted of 80 GRBs detected by the Fermi satellite. It is found that there is no correlation between the two parameters for the Swift sample, but there does exist a weak negative correlation for the Fermi sample. The correlation becomes even more significant when the spectral index at the peak flux is considered. It is argued that the absence of the correlation in the Swift sample may be due to the fact that Swift has a very narrow energy response so that it could not measure the low-energy spectral index accurately enough. Further studies based on even larger GRB samples are solicited.

Published

2023

13. Improved Probability Prediction Method Research for Photovoltaic Power Output

Author

Ze Cheng, Qi Liu, and Wen Zhang

Subjects

PV, probability prediction, sparse Gaussian process regression, least squares support vector machine, combination method, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Due to solar radiation and other meteorological factors, photovoltaic (PV) output is intermittent and random. Accurate and reliable photovoltaic power prediction can improve the stability and safety of grid operation. Compared to solar power point prediction, probabilistic prediction methods can provide more information about potential uncertainty. Therefore, this paper first proposes two kinds of photovoltaic output probability prediction models, which are improved sparse Gaussian process regression model (IMSPGP), and improved least squares support vector machine error prediction model (IMLSSVM). In order to make full use of the advantages of the different models, this paper proposes a combined forecasting method with divided-interval and variable weights, which divides one day into four intervals. The models are combined by the optimal combination method in each interval. The simulation results show that IMSPGP and IMLSSVM have better prediction accuracy than the original models, and the combination model obtained by the combination method proposed in this paper further improves the prediction performance.

Published

2019

14. Gluon Condensation Signature in the GeV Gamma-Ray Spectra of Pulsars

Author

Zou, Ze-Cheng, Huang, Yong-Feng, Li, Cheng-Ming, Zheng, He-Rui, and Zhu, Wei

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology

Abstract

The accumulation of gluons inside nucleons, i.e., the gluon condensation, may lead to a characteristic broken power-law gamma-ray spectrum in high-energy nucleon collisions. Here we show that the observed spectra of at least 25 sources in the second Fermi Large Area Telescope Catalog of Gamma-ray Pulsars can be well fitted by such a broken power-law function that has only four free parameters. It strongly indicates that the gamma-ray emission from these pulsars is of hadronic origin, but with gluon condensation inside hadrons. It is well known that the quark-gluon distribution in a free nucleon is different from that in a bound nucleon. This work exposes the nuclear $A$ dependence of the gluon condensation effect, where $A$ refers to the baryon number. Our study reveals the gluon condensation under the condition of $A\to\infty$, which may open a new window for eavesdropping on the structure of compact stars on the subnuclear level., Comment: 10 pages, 5 figures, 1 table, typos fixed

Published

2023

15. Application of Deep Learning Methods for Distinguishing Gamma-Ray Bursts from Fermi/GBM TTE Data

Author

Zhang, Peng, Li, Bing, Gui, RenZhou, Xiong, Shaolin, Zou, Ze-Cheng, Wang, Xianggao, Li, Xiaobo, Cai, Ce, Zhao, Yi, Zhang, Yanqiu, Xue, Wangchen, Zheng, Chao, and Zhao, Hongyu

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

To investigate GRBs in depth, it is crucial to develop an effective method for identifying GRBs accurately. Current criteria, e.g., onboard blind search, ground blind search, and target search, are limited by manually set thresholds and perhaps miss GRBs, especially for sub-threshold events. We propose a novel approach that utilizes convolutional neural networks (CNNs) to distinguish GRBs and non-GRBs directly. We structured three CNN models, plain-CNN, ResNet, and ResNet-CBAM, and endeavored to exercise fusing strategy models. Count maps of NaI detectors onboard Fermi/GBM were employed as the input samples of datasets and models were implemented to evaluate their performance on different time scale data. The ResNet-CBAM model trained on 64 ms dataset achieves high accuracy overall, which includes residual and attention mechanism modules. The visualization methods of Grad-CAM and t-SNE explicitly displayed that the optimal model focuses on the key features of GRBs precisely. The model was applied to analyze one-year data, accurately identifying approximately 98% of GRBs listed in the Fermi burst catalog, 8 out of 9 sub-threshold GRBs, and 5 GRBs triggered by other satellites, which demonstrated the deep learning methods could effectively distinguish GRBs from observational data. Besides, thousands of unknown candidates were retrieved and compared with the bursts of SGR J1935+2154 for instance, which exemplified the potential scientific value of these candidates indeed. Detailed studies on integrating our model into real-time analysis pipelines thus may improve their accuracy of inspection, and provide valuable guidance for rapid follow-up observations of multi-band telescopes., Comment: accepted for publication in ApJSS. 45 pages,17 figures

Published

2023

16. Discovery of a radio lobe in the Cloverleaf Quasar at z = 2.56

Author

Zhang, Lei, Zhang, Zhi-Yu, Nightingale, James. W., Zou, Ze-Cheng, Cao, Xiaoyue, Tsai, Chao-Wei, Yang, Chentao, Shi, Yong, Wang, Junzhi, Xu, Dandan, Lin, Ling-Rui, Zhou, Jing, and Li, Ran

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The fast growth of supermassive black holes and their feedback to the host galaxies play an important role in regulating the evolution of galaxies, especially in the early Universe. However, due to cosmological dimming and the limited angular resolution of most observations, it is difficult to resolve the feedback from the active galactic nuclei (AGN) to their host galaxies. Gravitational lensing, for its magnification, provides a powerful tool to spatially differentiate emission originated from AGN and host galaxy at high redshifts. Here we report a discovery of a radio lobe in a strongly lensed starburst quasar, H1413+117 or Cloverleaf at redshift $z= 2.56$, based on observational data at optical, sub-millimetre, and radio wavelengths. With both parametric and non-parametric lens models and with reconstructed images on the source plane, we find a differentially lensed, kpc scaled, single-sided radio lobe, located at ${\sim}1.2\,\mathrm{kpc}$ to the north west of the host galaxy on the source plane. From the spectral energy distribution in radio bands, we find that the radio lobe has an energy turning point residing between 1.5 GHz and 8 GHz, indicating an age of 20--50 Myr. This could indicate a feedback switching of Cloverleaf quasar from the jet mode to the quasar mode.

Published

2022

17. Review on recent advances of inorganic electrode materials for potassium-ion batteries

Author

Xiong, Jian-Zhen, Yang, Ze-Cheng, Guo, Xin-Liang, Wang, Xi-Ying, Geng, Chao, Sun, Zong-Fu, Xiao, An-Yong, Zhuang, Quan-Chao, Chen, Ya-Xin, and Ju, Zhi-Cheng

Published

2024

18. Gravitational Waves from Strange Star Core-Crust Oscillation

Author

Zou, Ze-Cheng, Huang, Yong-Feng, and Zhang, Xiao-Li

Subjects

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

Abstract

According to the strange quark matter hypothesis, pulsars may actually be strange stars composed of self-bound strange quark matter. The normal matter crust of a strange star, unlike that of a normal neutron star, is supported by a strong electric field. A gap is then presented between the crust and the strange quark core. Therefore, peculiar core-crust oscillation may occur in a strange star, which can produce distinctive gravitational waves. In this paper, the waveforms of such gravitational waves are derived using a rigid model. We find that the gravitational waves are extremely weak and undetectable, even for the next-generation detectors. Therefore, the seismology of a strange star is not affected by the core-crust oscillation. Observers will have to search for other effects to diagnose the existence of the crust., Comment: 9 pages, 1 figure, published in the journal Universe as a contribution to the special issue "Advances in Astrophysics and Cosmology - in Memory of Prof. Tan Lu"

Published

2022

19. A New Method of PV Array Faults Diagnosis in Smart Grid

Author

Ze Cheng, Yucui Wang, and Silu Cheng

Subjects

Mathematics, QA1-939

Abstract

A new fault diagnosis method is proposed for PV arrays with SP connection in this study, the advantages of which are that it would minimize the number of sensors needed and that the accuracy and anti-interference ability are improved with the introduction of fuzzy group decision-making theory. We considered five “decision makers” contributing to the diagnosis of PV array faults, including voltage, current, environmental temperature, panel temperature, and solar illumination. The accuracy and reliability of the proposed method were verified experimentally, and the possible factors contributing to diagnosis deviation were analyzed, based on which solutions were suggested to reduce or eliminate errors in aspects of hardware and software.

Published

2014

20. Estimation of State of Charge for Lithium-Ion Battery Based on Finite Difference Extended Kalman Filter

Author

Ze Cheng, Jikao Lv, Yanli Liu, and Zhihao Yan

Subjects

Mathematics, QA1-939

Abstract

An accurate estimation of the state of charge (SOC) of the battery is of great significance for safe and efficient energy utilization of electric vehicles. Given the nonlinear dynamic system of the lithium-ion battery, the parameters of the second-order RC equivalent circuit model were calibrated and optimized using a nonlinear least squares algorithm in the Simulink parameter estimation toolbox. A comparison was made between this finite difference extended Kalman filter (FDEKF) and the standard extended Kalman filter in the SOC estimation. The results show that the model can essentially predict the dynamic voltage behavior of the lithium-ion battery, and the FDEKF algorithm can maintain good accuracy in the estimation process and has strong robustness against modeling error.

Published

2014

21. A variable-representation discrete artificial bee colony algorithm for a constrained hybrid flow shop

Author

Wang, Ze-Cheng, Pan, Quan-Ke, Gao, Liang, Miao, Zhong-Hua, and Sang, Hong-Yan

Published

2024

22. Gravitational-wave Emission from a Primordial Black Hole Inspiraling inside a Compact Star: a Novel Probe for Dense Matter Equation of State

Author

Zou, Ze-Cheng and Huang, Yong-Feng

Subjects

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

Abstract

Primordial black holes of planetary masses captured by compact stars are widely studied to constrain their composition fraction of dark matter. Such a capture may lead to an inspiral process and be detected through gravitational wave signals. In this Letter, we study the post-capture inspiral process by considering two different kinds of compact stars, i.e., strange stars and neutron stars. The dynamical equations are numerically solved and the gravitational wave emission is calculated. It is found that the Advanced LIGO can detect the inspiraling of a $10^{-5}$ solar mass primordial black hole at a distance of 10 kpc, while a Jovian-mass case can even be detected at megaparsecs. Promisingly, the next generation gravitational wave detectors can detect the cases of $10^{-5}$ solar mass primordial black holes up to ${\sim}1$ Mpc, and can detect Jovian-mass cases at several hundred megaparsecs. Moreover, the kilohertz gravitational wave signal shows significant differences for strange stars and neutron stars, potentially making it a novel probe to the dense matter equation of state., Comment: 15 pages, 7 figures, accepted by ApJL

Published

2022

23. Reference Neural Operators: Learning the Smooth Dependence of Solutions of PDEs on Geometric Deformations.

Author

Ze Cheng, Zhongkai Hao, Xiaoqiang Wang, Jianing Huang, Youjia Wu, Xudan Liu, Yiru Zhao, Songming Liu, and Hang Su 0006

Published

2024

24. Lineage-specific biology revealed by a finished genome assembly of the mouse.

Author

Deanna M Church, Leo Goodstadt, Ladeana W Hillier, Michael C Zody, Steve Goldstein, Xinwe She, Carol J Bult, Richa Agarwala, Joshua L Cherry, Michael DiCuccio, Wratko Hlavina, Yuri Kapustin, Peter Meric, Donna Maglott, Zoë Birtle, Ana C Marques, Tina Graves, Shiguo Zhou, Brian Teague, Konstantinos Potamousis, Christopher Churas, Michael Place, Jill Herschleb, Ron Runnheim, Daniel Forrest, James Amos-Landgraf, David C Schwartz, Ze Cheng, Kerstin Lindblad-Toh, Evan E Eichler, Chris P Ponting, and Mouse Genome Sequencing Consortium

Subjects

Biology (General), QH301-705.5

Abstract

The mouse (Mus musculus) is the premier animal model for understanding human disease and development. Here we show that a comprehensive understanding of mouse biology is only possible with the availability of a finished, high-quality genome assembly. The finished clone-based assembly of the mouse strain C57BL/6J reported here has over 175,000 fewer gaps and over 139 Mb more of novel sequence, compared with the earlier MGSCv3 draft genome assembly. In a comprehensive analysis of this revised genome sequence, we are now able to define 20,210 protein-coding genes, over a thousand more than predicted in the human genome (19,042 genes). In addition, we identified 439 long, non-protein-coding RNAs with evidence for transcribed orthologs in human. We analyzed the complex and repetitive landscape of 267 Mb of sequence that was missing or misassembled in the previously published assembly, and we provide insights into the reasons for its resistance to sequencing and assembly by whole-genome shotgun approaches. Duplicated regions within newly assembled sequence tend to be of more recent ancestry than duplicates in the published draft, correcting our initial understanding of recent evolution on the mouse lineage. These duplicates appear to be largely composed of sequence regions containing transposable elements and duplicated protein-coding genes; of these, some may be fixed in the mouse population, but at least 40% of segmentally duplicated sequences are copy number variable even among laboratory mouse strains. Mouse lineage-specific regions contain 3,767 genes drawn mainly from rapidly-changing gene families associated with reproductive functions. The finished mouse genome assembly, therefore, greatly improves our understanding of rodent-specific biology and allows the delineation of ancestral biological functions that are shared with human from derived functions that are not.

Published

2009

25. Microscopic and macroscopic characteristics for coal spontaneous combustion under pre-oxidation and stress

Author

Xu, Yong-liang, Huo, Xing-wang, Wang, Lan-yun, Gao, Yi-bo, Lv, Ze-cheng, Mi, Xin-wei, and Guo, Yong-sheng

Published

2024

26. Recent advances in p-block metal chalcogenide electrocatalysts for high-efficiency CO2 reduction

Author

Chen, Fanrong, Yao, Ze-Cheng, Lyu, Zhen-Hua, Fu, Jiaju, Zhang, Xiaoling, and Hu, Jin-Song

Published

2024

27. Gamma-Ray Burst in a Binary System

Author

Zou, Ze-Cheng, Zhang, Bin-Bin, Huang, Yong-Feng, and Zhao, Xiao-Hong

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

Regardless of their different types of progenitors and central engines, gamma-ray bursts (GRBs) were always assumed to be standalone systems after they formed. Little attention has been paid to the possibility that a stellar companion can still accompany a GRB itself. This paper investigates such a GRB-involved binary system and studies the effects of the stellar companion on the observed GRB emission when it is located inside the jet opening angle. Assuming a typical emission radius of $\sim10^{15}\,$cm, we show that the blockage by a companion star with a radius of $R_\mathrm{c}\sim67\,\mathrm{R_\odot}$ becomes non-negligible when it is located within a typical GRB jet opening angle (e.g., $\sim10$ degrees) and beyond the GRB emission site. In such a case, an on-axis observer will see a GRB with a similar temporal behavior but 25% dimmer. On the other hand, an off-axis observer outside the jet opening angle (hence missed the original GRB) can see a delayed "reflected" GRB, which is much fainter in brightness, much wider in the temporal profile and slightly softer in energy. Our study can naturally explain the origin of some low-luminosity GRBs. Moreover, we also point out that the companion star may be shocked if it is located inside the GRB emission site, which can give rise to an X-ray transient or a GRB followed by a delayed X-ray bump on top of X-ray afterglows., Comment: 11 pages, 6 figures, 1 table, accepted by ApJ

Published

2021

28. NUNO: A General Framework for Learning Parametric PDEs with Non-Uniform Data.

Author

Songming Liu, Zhongkai Hao, Chengyang Ying, Hang Su 0006, Ze Cheng, and Jun Zhu 0001

Published

2023

29. GNOT: A General Neural Operator Transformer for Operator Learning.

Author

Zhongkai Hao, Zhengyi Wang, Hang Su 0006, Chengyang Ying, Yinpeng Dong, Songming Liu, Ze Cheng, Jian Song, and Jun Zhu 0001

Published

2023

30. Spontaneous combustion properties and quantitative characterization of catastrophic temperature for pre-oxidized broken coal under stress

Author

Xu, Yong-liang, Huo, Xing-wang, Wang, Lan-yun, Gong, Xiang-jun, Lv, Ze-cheng, and Zhao, Tian

Published

2024

31. The Gravitational Wave Emission of Double White Dwarf Coalescences

Author

Zou, Ze-Cheng, Zhou, Xiao-Long, and Huang, Yong-Feng

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

Type Ia Supernovae (SNe Ia) are widely used as standard candles to probe the Universe. However, how these fierce explosions are produced itself is still a highly debated issue. There are mainly two popular models for SNe Ia, i.e. the double-degenerate scenario and the single-degenerate scenario. The double-degenerate scenario suggests that SNe Ia are produced by the coalescence of two degenerate white dwarfs, while the single-degenerate scenario suggests that the continuous accretion of a single degenerate white dwarf from its normal stellar companion will finally lead to a disastrous explosion when it is over-massive, resulting in an SN Ia. The rapid development of the gravitational wave astronomy sheds new light on the nature of SNe Ia. In this study, we calculate the gravitational wave emissions of double white dwarf coalescences and compare them with the sensitivities of several upcoming detectors. It is found that the gravitational wave emissions from double white dwarf mergers in the locale universe are strong enough to be detected by LISA. We argue that LISA-like gravitational wave detectors sensitive in the frequency range of 0.01 - 0.1 Hz will be a powerful tool to test the double-degenerate model of SNe Ia, and also to probe the Universe., Comment: 10 pages, 5 figures, accepted by RAA. Reference added in Section 6. References updated to match the accepted version on RAA

Published

2020

32. Interfacial assembly of binary atomic metal-Nx sites for high-performance energy devices

Author

Jiang, Zhe, Liu, Xuerui, Liu, Xiao-Zhi, Huang, Shuang, Liu, Ying, Yao, Ze-Cheng, Zhang, Yun, Zhang, Qing-Hua, Gu, Lin, Zheng, Li-Rong, Li, Li, Zhang, Jianan, Fan, Youjun, Tang, Tang, Zhuang, Zhongbin, and Hu, Jin-Song

Published

2023

33. Accumulative time-based ranking method to reputation evaluation in information networks

Author

Liao, Hao, Liu, Qi-xin, Huang, Ze-cheng, Yeung, Chi Ho, and Zhang, Yi-Cheng

Subjects

Computer Science - Social and Information Networks

Abstract

With the rapid development of modern technology, the Web has become an important platform for users to make friends and acquire information. However, since information on the Web is over-abundant, information filtering becomes a key task for online users to obtain relevant suggestions. As most Websites can be ranked according to users' rating and preferences, relevance to queries, and recency, how to extract the most relevant item from the over-abundant information is always a key topic for researchers in various fields. In this paper, we adopt tools used to analyze complex networks to evaluate user reputation and item quality. In our proposed accumulative time-based ranking (ATR) algorithm, we incorporate two behavioral weighting factors which are updated when users select or rate items, to reflect the evolution of user reputation and item quality over time. We showed that our algorithm outperforms state-of-the-art ranking algorithms in terms of precision and robustness on empirical datasets from various online retailers and the citation datasets among research publications.

Published

2019

34. Constructing hierarchical nanosheet-on-microwire FeCo LDH@Co3O4 arrays for high-rate water oxidation

Author

Tang, Tang, Jiang, Zhe, Deng, Jun, Niu, Shuai, Yao, Ze-Cheng, Jiang, Wen-Jie, Zhang, Lin-Juan, and Hu, Jin-Song

Published

2022

35. A variable-representation discrete artificial bee colony algorithm for a constrained hybrid flow shop.

Author

Ze-Cheng Wang, Quan-Ke Pan, Liang Gao 0001, Zhong-Hua Miao, and Hongyan Sang

Published

2024

36. Bi-level Physics-Informed Neural Networks for PDE Constrained Optimization using Broyden's Hypergradients.

Author

Zhongkai Hao, Chengyang Ying, Hang Su 0006, Jun Zhu 0001, Jian Song, and Ze Cheng

Published

2023

37. Mass Function of Stellar Black Holes as Revealed by the LIGO–Virgo–KAGRA Observations

Author

Xiao-Fei Dong, Yong-Feng Huang, Zhi-Bin Zhang, Xiu-Juan Li, Ze-Cheng Zou, Chen-Ran Hu, Chen Deng, and Yang Liu

Subjects

Black holes, Astronomy data analysis, Stellar mergers, Gravitational waves, Astrophysics, QB460-466

Abstract

Ninety gravitational-wave events have been detected by the LIGO–Virgo–KAGRA network and are released in the Gravitational-Wave Transient Catalog. Among these events, 83 cases are definitely binary black hole mergers, since the masses of all the objects involved significantly exceed the upper limit of neutron stars. The black holes in these merger events naturally form two interesting samples, a premerger sample that includes all the black holes before the mergers and a postmerger sample that consists of the black holes generated during the merging processes. The former represents black holes that once existed in the Universe, while the latter represents newly born black holes. Here we present a statistical analysis of these two samples. The nonparametric τ statistic method is adopted to correct for the observational selection effect. The Lynden-Bell C ^− method is further applied to derive the mass distribution and density function of black holes. It is found that the mass distribution can be expressed as a broken power-law function. More interestingly, the power-law index in the high-mass region is comparable for the two samples. The number density of black holes is found to depend on redshift as ρ ( z ) ∝ z ^−2.06 — z ^−2.12 based on the two samples. The implications of these findings on the origin of black holes are discussed.

Published

2024

38. State-of-health estimation for lithium-ion batteries using differential thermal voltammetry and Gaussian process regression

Author

Wang, Ping, Peng, Xiangyuan, and Ze, Cheng

Published

2022

39. Accumulative Time Based Ranking Method to Reputation Evaluation in Information Networks

Author

Liao, Hao, Liu, Qi-Xin, Huang, Ze-Cheng, Lu, Ke-Zhong, Yeung, Chi Ho, and Zhang, Yi-Cheng

Published

2022

40. Chemokines in colon cancer progression

Author

Jia, Sheng-Nan, Han, Ying-Bo, Yang, Rui, and Yang, Ze-Cheng

Published

2022

41. N-linoleyltyrosine protects neurons against Aβ1–40-induced cell toxicity via autophagy involving the CB2/AMPK/mTOR/ULK1 pathway

Author

Zhou, Yi, Li, Zi-xiang, Liu, Yuan-ting, Xu, Ze-Cheng, Hu, Yan, Lv, Wen, Yang, Zheng-yu, Sheng, Yan-mei, and Liu, Sha

Published

2022

42. Alloying behavior and characterization of (CoCrFeNiMn)90M10 (M=Al, Hf) high-entropy materials fabricated by mechanical alloying

Author

WANG, Nai-ran, WANG, Shou-ren, GOU, Xiao-xiang, SHI, Ze-cheng, LIN, Jian-xiang, LIU, Guo-qiang, and WANG, Yan

Published

2022

43. Effect of hydration on mechanical properties and microstructure of expansive soil

Author

Chi, Ze-Cheng, Dai, Zhang-Jun, Chen, Shan-Xiong, Li, Fan-Fan, Wang, Wei, and Li, Jian-Bin

Published

2023

44. Accumulative Time Based Ranking Method to Reputation Evaluation in Information Networks.

Author

Hao Liao, Qi-Xin Liu, Ze-cheng Huang, Ke-Zhong Lu, Chi Ho Yeung, and Yi-Cheng Zhang

Published

2022

45. Advanced In Situ Spectroscopic Techniques for Probing the Acidic Oxygen Evolution Reaction.

Author

Hong, Shi-Yu, Yao, Ze-Cheng, Cheng, Xing, Jiang, Zhe, Tang, Tang, and Hu, Jin-Song

Published

2024

46. Gravitational Wave Emission from Close-in Strange Quark Planets Around Strange Stars with Magnetic Interactions

Author

Zhang, Xiao-Li, primary, Zou, Ze-Cheng, additional, Huang, Yong-Feng, additional, Gao, Hao-Xuan, additional, Wang, Pei, additional, Cui, Lang, additional, and Liu, Xiang, additional

Published

2024

47. Micro/Nano‐Structured Superhydrophobic Gas Diffusion Electrode for Boosting the Stability of Industrial‐Compatible Electrochemical CO Production in Flow Cells

Author

Jiang, Zhe, primary, Lyu, Zhen‐Hua, additional, Liu, Xiao‐Zhi, additional, Fu, Jiaju, additional, Zhang, Libing, additional, Yao, Ze‐Cheng, additional, Zheng, Li‐Rong, additional, Su, Dong, additional, Fan, You‐Jun, additional, Tang, Tang, additional, and Hu, Jin‐Song, additional

Published

2024

48. A Unified Hard-Constraint Framework for Solving Geometrically Complex PDEs.

Author

Songming Liu, Zhongkai Hao, Chengyang Ying, Hang Su 0006, Jun Zhu 0001, and Ze Cheng

Published

2022

49. Advanced In SituSpectroscopic Techniques for Probing the Acidic Oxygen Evolution Reaction

Author

Hong, Shi-Yu, Yao, Ze-Cheng, Cheng, Xing, Jiang, Zhe, Tang, Tang, and Hu, Jin-Song

Abstract

Proton exchange membrane water electrolysis (PEMWE) is a promising technology for sustainable hydrogen production. However, the anodic oxygen evolution reaction (OER) is a critical bottleneck restricting the power-to-gas efficiency and the widespread application of PEMWE devices because the harsh acidic and oxidative environment causes drastic catalyst structural evolution and thus severe catalyst dissolution/corrosion as well as performance degradation. Currently, the lack of deep insight for identifying the real catalytic sites during the structural evolution and the distinctions of reaction mechanisms have hindered the development of highly active and durable OER catalysts for PEMWE. Therefore, elucidating the OER-induced structure evolution and understanding the underlying mechanisms are recognized as the foundations for PEMWE technology. Against this backdrop, in situspectroscopic characterization techniques serve as powerful tools for achieving this goal by enabling the real-time monitoring of the catalytic structure and the capture of key intermediates. This Account summarizes the recent advances in cutting-edge in situspectroscopy techniques for probing the acidic OER process. The fundamentals and device configurations of these techniques are briefly introduced, and the advantages of each technique for monitoring the catalyst structural evolution and identifying the intermediates to unveil the underlying mechanisms have also been discussed. Finally, the challenges, development trends, and prospects in this field are presented.

Published

2024

50. Effect of isothermal compression and subsequent heat treatment on grain structures evolution of Al-Mg-Si alloy

Author

Li, Ze-cheng, Deng, Yun-lai, Yuan, Man-fa, Zhang, Jin, and Guo, Xiao-bin

Published

2021