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1. The Transition Rate and Gravitational Wave Spectrum from First-Order QCD Phase Transitions

Author

Shao, Jingdong, Mao, Hong, and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

We investigate the gravitational wave spectrum induced by first-order QCD phase transitions including the deconfinement phase transition in the pure gluon system and Friedberg-Lee model, and chiral phase transition in the quark-meson model and Polyakov quark-meson model. The gravitational wave power spectra are sensitive to the phase transition rate $\beta/H$. All QCD models predict a rather large phase transition rate in the order of $\beta/H\sim10^4$ at high temperature region, and the produced gravitational waves lie in the peak frequency region of $10^{-4}-0.01 {\rm Hz}$, corresponding to an energy spectrum in the range of $10^{-8}-10^{-7}$, which can be detected by LISA and Taiji. If a high baryon density is generated through Affleck-Dine baryogenesis or other mechanisms, the baryon chemical potential significantly reduces the phase transition rate, potentially dropping it to the order of $\beta/H\sim 10^1$, leading to the production of nanohertz gravitational waves. Furthermore, a critical quark chemical potential exists with a zero phase transition rate $\beta/H=0$, indicating that the false vacuum will not decay, thus supporting the formation of primordial quark nuggets in the early universe., Comment: 22 pages

Published
2024

2. Nanohertz gravitational waves and primordial quark nuggets from dense QCD matter in the early universe

Author

Shao, Jingdong, Mao, Hong, and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

The first-order QCD phase transition at high temperature features a large transition rate in the magnitude of $\beta/H \sim 10^4$ with induced stochastic gravitational waves typically lying in the LISA range. High baryon density in the early universe can be generated through Affleck-Dine baryogenesis. The baryon chemical potential enhances the potential barrier and significantly reduces the transition rate, which decreases from infinity at the critical end point (CEP) to zero at the critical nucleation point (CNP). Nanohertz gravitational waves can be produced in a narrow window of high baryon chemical potential with transition rate in the order of $\beta/H \sim 10^1$. When the phase transition rate reaches zero, the false vacuum of high baryon density quark matter is unlikely to decay and can persist over cosmological time scales. Therefore the primordial quark nuggets (PQN) can form and survive in the early universe as the seeds of compact stars, thereby dramatically accelerating the evolution of compact stars and the formation of galaxies, which may explain the high red-shift massive galaxies observed by the James Webb Space Telescope., Comment: 3 figures

Published
2024

3. Pion Condensation and Pion Star from Holographic QCD

Author

Chen, Yidian, Ding, Mingshan, Li, Danning, Fadafan, Kazem Bitaghsir, and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

The properties of QCD matter at finite isospin densities are investigated employing holographic hard-wall and soft-wall AdS/QCD models. It is confirmed that at high enough isospin densities, charged pions start to condense and the pion superfluid phase appears in the system. It is shown that the chiral condensate and the pion condensate can be transformed to each other and form a `chiral circle' in the superfluid phase. We derived the Equation of State (EoS) for pionic matter, calculated the normalized trace anomaly $\Delta$ and $(\epsilon-3p)/m_\pi^4$, and analyzed the sound speed and adiabatic index. Additionally, we provided data on the mass-radius relation and tidal deformability of pion stars. The results indicate that the holographic models align well with lattice QCD concerning isospin density, axial-vector condensation, EoS, and trace anomaly, though discrepancies in sound speed and adiabatic index emerge at higher isospin chemical potentials. The holographic models closely match those from chiral perturbation theory ($\chi$PT), suggesting that they can be considered as five-dimensional description of $\chi$PT., Comment: 24 pages, 5 figures

Published
2024

4. Effect of quark anomalous magnetic moment on neutral dense quark matter under magnetic field

Author

Kawaguchi, Mamiya, Siddique, Irfan, and Huang, Mei

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

We discuss the effect of the quark anomalous magnetic moment (AMM) on the neutral dense quark matter under magnetic fields based on the Nambu-Jona-Lasinio (NJL) model at finite baryon density. To address its correlation with the chiral symmetry, we consider a simplified situation: the model includes the two-quark flavors under constant magnetic fields, and incorporates the effective interaction of the quark AMM linked to the spontaneous chiral symmetry breaking. We then examine the equation of state (EoS) in cases with and without magnetization for anatomizing the thermodynamic quantities. Without the magnetization, a small magnetic field stiffens the EoS, but with increasing the magnetic field, the EoS tends to soften. The stiffness of the EoS is found to be influenced by the magnetic effect on the critical chemical potential of the chiral phase transition and the quark number density at this critical point. As a result, the mass and radius of the neutral dense quark matter increase with the small magnetic field but turn to decrease as the magnetic field further increases. By including the quark AMM, the critical chemical potential is decreased and the quark number density takes a smaller value. Thus, for the stronger magnetic fields, the quark AMM suppresses the softening effect of the magnetic field on the EoS, leading to increased mass and radius compared to when the quark AMM is absent. In contrast, for the small magnetic field, the contribution of the quark AMM to the EoS is marginal. When the magnetization is taken into account, the magnetic effect on the stiffness of the EoS is overshadowed by the contribution of the magnetization, and the significance of the quark AMM also becomes invisible in the mass-radius relation., Comment: 16 pages, 7 figures

Published
2024

5. The effect of vorticity on the dynamical magnetic fields in heavy-ion collisions

Author

Huang, Anping, Wu, Xiang-Yu, and Huang, Mei

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Theory, Nuclear Theory
Abstract

Magnetic fields in heavy-ion collisions are pivotal and subject to diverse factors. In this study, we quantitatively investigate the impact of fluid vorticity on the evolution of magnetic fields in the 20-50\% centrality class in Au+Au collisions, with collision energies of $\sqrt{s_{NN}}=(7.7, 14.5, 19.6, 27, 39, 62.4, 200)$ GeV. Our results indicate that fluid vorticity leads to a delay in the evolution of the magnetic field, in which this effect becomes more pronounced as the collision energy decreases. Additionally, we have calculated the mean magnetic field values on the freeze-out hypersurface for various collision energies. Our simulation results align with the values inferred from experimental data of $\bar{\Lambda}-\Lambda$, within the error margins.

Published
2024

6. Spin Alignment of Vector Mesons Induced by Local Spin Density Fluctuations

Author

Xu, Kun and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

We propose a novel mechanism that the spin alignment of vector meson $\phi$ and $K^{*0}$ in most central heavy ion collisions is induced by intrinsic QCD dynamics without external vortical/ magnetic fields. The local spin density fluctuation of quarks due to the axial-vector and tensor interactions between quarks can induce the spin alignments of vector meson. It is found that axial-vector interaction results in $\rho_{00}<1/3$ for the spin alignment of $\phi$ meson, while tensor interaction results in $\rho_{00}>1/3$. We argue that the spin alignment of $K^{*0}$ due to the spin density fluctuation from flavor-mixing would be a signature or hint of instanton., Comment: 9 pages,4 figures

Published
2024

7. Deconfinement and chiral restoration phase transition under rotation from holography in an anisotropic gravitational background

Author

Chen, Yidian, Chen, Xun, Li, Danning, and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

We investigate the effects of rotation on deconfinement and chiral phase transitions in the framework of dynamical holographic QCD model. Instead of transforming to the rotating system by Lorentz boost, we construct an anisotropic gravitational background by incorporating the rotating boundary current. We firstly investigate the pure gluon system under rotation to extract deconfinement phase transition from the Polyakov loop then add 2-flavor probe for chiral restoration phase transition from the chiral condensate. It is observed that at low chemical potentials, the deconfinement phase transition of pure gluon system is of first order and the chiral phase transition of 2-flavor system is of crossover. Both the critical temperatures of deconfinement and chiral phase transitions decrease/increase with imaginary/real angular velocity ($\Omega_I/\Omega$) as $T/T_c\sim 1- C_2 \Omega_I^2$ and $T/T_c\sim 1+ C_2 \Omega^2$, which is consistent with lattice QCD results. In the temperature-chemical potential $T-\mu$ phase diagram, the critical end point (CEP) moves towards regions of higher temperature and chemical potential with real angular velocity.

Published
2024

8. Flavor dependent Critical endpoint from holographic QCD through machine learning

Author

Chen, Xun and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

QCD phase diagram in the $T - \mu$ plane and the equation of state for pure gluon, 2-flavor, 2+1-flavor systems, and 2+1+1-flavor systems have been investigated using the Einstein-Maxwell-Dilaton (EMD) framework at finite temperature and chemical potential. By inputting lattice QCD data for the equation of state and baryon susceptibility at zero chemical potential into holographic model, all the parameters can be determined with the aid of machine learning algorithms. Our findings indicate that the deconfinement phase transition is of first order for the pure gluon system with critical temperature $T_c = 0.265 \rm GeV$ at vanishing chemical potential. The phase transition for the 2-flavor, 2+1-flavor systems, and 2+1+1-flavor systems are crossover at vanishing chemical potential and first-order at high chemical potential, and the critical endpoint(CEP) in the $T - \mu$ plane locates at ($\mu_B^c$=0.46 GeV, $T^c$=0.147 GeV), ($\mu_B^c$ = 0.74 GeV, $T^c$ = 0.094 GeV), and ($\mu_B^c$= 0.87 GeV,$T^c$ = 0.108 GeV), respectively. Additionally, the thermodynamic quantities of the system for different flavors at finite chemical potential are presented in this paper. It is observed that the difference between the 2+1 flavor and 2+1+1 flavor systems is invisible at vanishing chemical potential and low temperature. The location of CEP for 2+1+1 flavor system deviates explicitly from that of the 2+1 flavor system with the increase of chemical potential. Both 2+1 flavor and 2+1+1 flavor systems differ significantly from the 2-flavor system.

Published
2024

9. Bubble wall velocity and gravitational wave in the minimal left-right symmetric model

Author

Wang, Dian-Wei, Yan, Qi-Shu, and Huang, Mei

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

The bubble wall velocity in the first order phase transition plays an important role in determining both the amplitude and the pivot frequency of stochastic gravitational wave background. In the framework of the minimal left-right symmetric model, we study the wall velocity when the first order phase transition can occur. The wall velocity can be determined by matching the distribution functions in the free particle approximation and the local thermal equilibrium approximation. It is found that the wall velocity can be determined in the range $ 0.2 < v_w < 0.5 $ for the parameter space with the first order phase transition. It is also found that for the case when the wall velocity is close to the speed of sound, the peak amplitude of gravitational wave spectrum can be larger than that in the runaway case. Moreover, It is also found that there exists an approximate power law between the wall velocity and pressure difference between broken and symmetry phases, and the power index is equal to 0.41 or so., Comment: 22 pages, 12 figures

Published
2024
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10. Net proton number cumulants from viscous hydro with equation of state including a critical end point

Author

Shen, Yi-fan, Chen, Wei, Wu, Xiang-yu, Xu, Kun, and Huang, Mei

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

In the SMASH-CLVisc-hybrid framework, including SMASH for the initial conditions and the hadronic rescattering stage, and CLVisc for the quark gluon plasma (QGP) evolution, we investigate net baryon number fluctuations via considering the equation of state (EoS) with and without a critical end point (CEP) in the QCD phase transition. Specifically, two distinct QCD EoS are utilized: one with smooth crossover derived from NEOS and another with a critical end point sourced from the rPNJL model. Our results show that non-monotonic behavior of $\kappa\sigma^2$ is not observed above the collision energy $7.7 {\rm GeV}$, nor are there explicit differences between the EoS characterized by crossover and that by CEP. This could be attributed to the significant deviation of the freeze-out line from the location of CEP. It is also found that the pure SMASH result of $\kappa \sigma^2$ is positive and close to zero at 3 GeV, which is different from the negative value observed from STAR.

Published
2024

14. Design of customized coronavirus receptors

Author

Liu, Peng, Huang, Mei-Ling, Guo, Hua, McCallum, Matthew, Si, Jun-Yu, Chen, Yuan-Mei, Wang, Chun-Li, Yu, Xiao, Shi, Lu-Lu, Xiong, Qing, Ma, Cheng-Bao, Bowen, John E., Tong, Fei, Liu, Chen, Sun, Ye-hui, Yang, Xiao, Chen, Jing, Guo, Ming, Li, Jing, Corti, Davide, Veesler, David, Shi, Zheng-Li, and Yan, Huan

Published
2024
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18. Magnetic catalysis and diamagnetism from pion fluctuations

Author

Mei, Jie, Wen, Rui, Mao, Shijun, Huang, Mei, and Xu, Kun

Subjects
High Energy Physics - Phenomenology
Abstract

In the framework of Nambu--Jona-Lasinio model beyond mean field approximation, the effects of pion fluctuations on (inverse) magnetic catalysis and magnetic susceptibility are studied. The negative magnetic susceptibility at low temperature is observed when contributions from both neutral and charged pions are taken into account. In weak field approximation, it is observed that at finite temperature, the magnetic inhibition effect in the chiral limit, resulting from the difference between the transverse and longitudinal velocities of neutral pions, converts to weak magnetic catalysis when considering a non-zero current quark mass. Moreover, the magnetic catalysis is amplified by the charged pions., Comment: 16 pages, 8 figures

Published
2024
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19. Chiral phase transition and spin alignment of vector meson in the Polarized-Polyakov-loop Nambu-Jona-Lasinio model under rotation

Author

Sun, Fei, Shao, Jingdong, Wen, Rui, Xu, Kun, and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

By using the extrapolation method, a polarized Polykov-loop potential at finite real angular velocity is constructed from the lattice results at finite imaginary angular velocity. The chiral and deconfinement phase transitions under rotation have been simultaneously investigated in the Polarized-Polyakov-loop Nambu-Jona-Lasinio (PPNJL) model. It is observed that both critical temperatures of deconfinement and chiral phase transition increase with the angular velocity, which is in consistent with lattice results. The spin alignment of vector meson has the negative deviation of $\rho_{00} -1/3$ under rotation, and the deviation in the PPNJL model is much more significant than that in the NJL model and the quark coalescence model, which revealing the important role of rotating gluons on the quark polarization., Comment: 10 pages, 6 figures

Published
2024

20. Machine learning holographic black hole from lattice QCD equation of state

Author

Chen, Xun and Huang, Mei

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Lattice
Abstract

Based on lattice QCD results of equation of state (EOS) and baryon number susceptibility at zero baryon chemical potential, and supplemented by machine learning techniques, we construct the analytic form of the holographic black hole metric in the Einstein-Maxwell-Dilaton (EMD) framework for pure gluon, 2-flavor, and 2+1-flavor systems, respectively. The dilaton potentials solved from Einstein equations are in good agreement with the extended non-conformal DeWolfe-Gubser-Rosen (DGR) type dilaton potentials fixed by lattice QCD EOS, which indicates the robustness of the EMD framework. The predicted critical endpoint (CEP) in the 2+1-flavor system is located at $(T^c$=0.094GeV, $\mu^c_B$=0.74GeV), which is close to the results from the realistic Polyakov-Nambu-Jona-Lasinio(PNJL) model, the functional renormalization group, and the holographic model with extended DeWolfe-Gubser-Rosen dilaton potential.

Published
2024

21. The effect of charm quark on chiral phase transition in $N_f=2+1+1$ holographic QCD

Author

Ahmed, Hiwa A., Kawaguchi, Mamiya, and Huang, Mei

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Lattice
Abstract

We investigate the effect of charm quark on the chiral phase transition of light quarks at finite temperature based on the four-flavor soft-wall holographic QCD model. In the massless limit, we find that the thermal chiral phase transition is of the second order in the four-quark flavor system. In the case with the massive charm quark and the massless light and strange quarks, the order of the phase transition changes to the first order. This is due to the quark flavor symmetry breaking which is associated with the violation of the $U(1)$ axial symmetry. Once the light and strange quarks get massive, the explicit chiral symmetry breaking becomes eminent, then the crossover phase transition is realized at the physical quark masses. We also map the order of the phase transition on a phase diagram in the quark mass plane where the light- and strange-quark masses are degenerate but differ from the value of the charm quark mass. This phase diagram is an extension of the conventional Columbia plot to the four-quark flavor system. The critical exponents related to the chiral phase transition are also addressed., Comment: We have updated some parts of the text and added a subsection on critical exponents

Published
2024

23. Technical Strategies for Low-Cost Adaptive Renovation of Traditional Dong Ethnic Group Residences in Southeast Guizhou

Author

Xie, Sisi, Huang, Mei, Zhan, Linxin, Wang, Zhengyang, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, He, Bao-Jie, editor, Prasad, Deo, editor, Yan, Li, editor, Cheshmehzangi, Ali, editor, and Pignatta, Gloria, editor

Published
2025
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29. Evolution of topological charge through chiral anomaly transport

Author

Yuan, Zilin, Huang, Anping, Zhou, Wen-Hao, Ma, Guo-Liang, and Huang, Mei

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

Built upon the state-of-the-art model a multiphase transport (AMPT), we develop a new module of chiral anomaly transport (CAT), which can trace the evolution of the initial topological charge of gauge field created through sphaleron transition at finite temperature and external magnetic field in heavy ion collisions. The eventual experimental signals of chiral magnetic effect(CME) can be measured. The CAT explicitly shows the generation and evolution of the charge separation, and the signals of CME through the CAT are quantitatively in agreement with the experimental measurements in Au+Au collision at $\sqrt{s}=200 {\rm GeV}$, and the centrality dependence of the CME fraction follows that of the fireball temperature., Comment: 7 pages, 6 figures

Published
2023

30. $D_{(s)}-$ mesons semileptonic form factors in the 4-flavor holographic QCD

Author

Ahmed, Hiwa A., Chen, Yidian, and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

We investigate semileptonic form factors of $D_{(s)}$ meson from a modified soft-wall 4-flavor holographic model. The model successfully reproduces the masses and decay constants of various mesons, including $\rho$, $K^*$, $D^*$, $D_s^*$, $a_1$, $K_1$, $f_1$, $D_1$,$D_{s1}$, $\pi$, $K$, $\eta$, $D$, and $D_s$. Moreover, we study the semileptonic decay processes $D^{+} \to (\pi, K, \eta) l^{+} \nu_{l}$ and $D_{s}^{+} \to ( K, \eta) l^{+} \nu_{l}$, associated with the vector meson exchange, as well as $D_{(s)}^{+} \to K^{} l^{+} \nu_{l}$, associated with the vector and axial vector meson exchange. The form factors $f_{+}(q^{2})$ for $D \to\pi$ and $D_{(s)}\to K$ decays agree excellently with experimental and lattice data, outperforming other theoretical approaches. The $f_{+}(q^{2})$ form factor for $D^{+} \to \eta $ is compatible with experimental data, while a slight discrepancy is observed for $D_{s}^{+} \to \eta $ at large $q^{2}$. Additionally, we predict the vector form factors $V(q^{2})$ and $A_{1}(q^{2})$ for $D \to K^{}$ and $D_{s} \to K^{}$ decays, respectively. The results agree well with other approaches and lattice data at maximum recoil ($q^{2}=0$)., Comment: arXiv admin note: text overlap with arXiv:2308.14975

Published
2023

31. Feasibility and safety of flexible ureteroscopy with intelligent control of renal pelvis pressure without urinary catheter: a retrospective study

Author

Huang Mei, Yang Baihua, Luo Xiaohua, Song Leming, and Deng Xiaolin

Subjects
Urinary catheter, Flexible ureteroscopy, Renal pelvic pressure, Diseases of the genitourinary system. Urology, RC870-923
Abstract

Abstract Background To explore the feasibility and safety of aflexible ureteroscopy with intelligent control of renal pelvic pressure(FUS-ICP) without a post-operative indwelling urinary catheter . Methods In this retrospective study, we assessed patients with upper urinary tract stones who were treated with FUS-ICP at the Ganzhou People’s Hospital from February 2022 to December 2023. Patients were divided into the non-urinary catheter (non-UC) and urinary catheter (UC) groups according to whether an indwelling catheter was used after surgery. Results In total, 142 patients were included in the study. There was no significant difference in the preoperative general data between the two groups. Patients in the non-UC group performed better than those in the UC group in terms of catheter-related bladder irritation (P = 0.001), the Sedation-Agitation Scale score (P = 0.012), and the numerical rating scale (P = 0.003). The incidences of urinary retention (P = 0.620), urinary tract infection (P = 0.529), and replacement of urethral catheter s (P = 0.438) in the UC group were inferior to those in the non-UC group, but there was no statistical significance. Conclusions It is feasible and safe to perform FUS-ICP without a post-procedure indwelling urinary catheter.

Published
2024
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32. The electromagnetic form factors in the $N_{f}=4$ holographic QCD

Author

Ahmed, Hiwa A., Chen, Yidian, and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

In this study, we employ a modified soft-wall holographic model with four flavors to investigate the meson spectra, decay constants, electromagnetic form factors, and charge radius of various mesons. We obtain the spectra for vector, axial vector, and pseudoscalar mesons. Decay constants are calculated and compared with experimental and lattice QCD data. The pion and kaon electromagnetic form factors are compared with the experimental data, and a good agreement is achieved for the kaon at low $Q^{2}$. For the charmed mesons, the electromagnetic form factors of the $D$ and $D_{s}$ and electric form factors of the $D^{*}$ and $D_{s}^{*}$ are well consistent with the lattice QCD data. Moreover, the electric, magnetic, and quadrupole form factors are predicted for the $\rho$, $K^{*}$, $a_1$, $K_1$, $D_1$, and $D_{s1}$ mesons. Furthermore, the charge radius of the vector, axial vector, and pseudoscalars, including the strange and charmed mesons, are computed.

Published
2023

33. The dynamical magnetic-induced quark spin polarization at the early stage in heavy-ion collisions

Author

Huang, Anping, Yuan, Zilin, and Huang, Mei

Subjects
Nuclear Theory, High Energy Physics - Phenomenology
Abstract

There has been significant interest in recent years in studying the spin polarization of hyperons in heavy-ion collisions. However, describing the dynamic spin polarization of quarks in quark-gluon plasma fireballs in detail presents a significant challenge. In this study, we conducted a phenomenological investigation of the dynamical spin polarization of quarks induced by the magnetic field at the pre-thermal stage in heavy-ion collisions using the recently developed theoretical tool of chiral kinetic theory. This study presents a comprehensive analysis of the dynamic process of quark spin polarization induced by magnetic fields. Our findings demonstrate that the spin polarization of quarks is highly sensitive to the interactions between quarks. These interactions can delay the decay of the early spin polarization vector while accelerating the decay of the later spin polarization vector. Specifically, our simulations model the detailed process of how magnetic fields polarize quarks within the fireball by the average spin vector and reveal that quark interactions lead to an acceleration effect on the average spin, causing it to rapidly increase from zero before being rapidly destroyed. Notably, the induced magnetic field in the fireball has an incomplete electromagnetic response effect, and its increase in the opposite direction of the external magnetic field decaying has a delay effect.

Published
2023

34. The Splitting of Chiral and Deconfinement Phase Transitions induced by Rotation

Author

Sun, Fei, Xu, Kun, and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

The chiral and deconfinement phase transitions under rotation have been simultaneously investigated in the Polyakov-Nambu-Jona-Lasinio (PNJL) model. An interesting observation has been found that the chiral phase transition is catalyzed and the deconfinement phase transition is decelerated by rotation, therefore a chiral symmetric but confined phase is induced by rotation, which indicates that chiral dynamics and gluon dynamics can be split by rotation., Comment: 9 pages, 5 figures

Published
2023
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35. The baryon number fluctuation $\kappa\sigma^2$ as a probe of nuclear matter phase transition at high baryon density

Author

Xu, Kun and Huang, Mei

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

Two critical end points (CEPs) of the chiral phase transition and the nuclear liquid-gas phase transition show up at finite baryon chemical potential. The kurtosis $\kappa\sigma^2$ of baryon number fluctuation on the $T-\mu_B$ plane is positive on the first-order side and negative on the crossover side along the phase boundary. The freeze-out line extracted from the heavy ion collisions crosses between these two phase boundaries, one can observe a peak of $\kappa\sigma^2$ around the collision energy $5 {\rm GeV}$ near the CEP of the chiral phase transition, and negative $\kappa\sigma^2$ at low collision energies due to the CEP of the nuclear liquid-gas phase transition. This expalains the experimental measurement of $\kappa\sigma^2$ at the collision energies of 2.4 GeV at HADES and 3 GeV and 7.7-200 GeV at STAR for most central collision. Thus we propose that the baryon number fluctuation $\kappa\sigma^2$ can be used as a probe of nuclear matter phase structure at high baryon density., Comment: 5 pages, 3 figures

Published
2023

36. Functional renormalization group study of neutral and charged pion under magnetic fields in the quark-meson model

Author

Wen, Rui, Yin, Shi, Fu, Wei-jie, and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

We calculated the masses of neutral and charged pion and pion decay constants under an extra magnetic field at zero temperature. The quantum fluctuations are integrated through the functional renormalization group. We consider the quark and meson propagators in the Landau level representation and weak-field expansion, respectively. The neutral pion mass monotonically decreases with the magnetic field, while the charged pion mass monotonically increases with the magnetic field. The pion decay constant and the quark mass show the magnetic catalysis behavior at vanishing temperature. The neutral pion mass and pion decay constant are quantitatively in agreement with the lattice QCD results in the region of $eB < 1.2 {\rm GeV}^2$, and no non-monotonic mass behavior for charged pion has been observed in this framework., Comment: 10 pages, 5 figures

Published
2023
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45. Spin alignment of vector mesons from quark dynamics in a rotating medium

Author

Wei, Minghua and Huang, Mei

Subjects
High Energy Physics - Phenomenology
Abstract

Vorticities in heavy-ion collisions (HICs) are supposed to induce spin alignment and polarization phenomena of quarks and mesons. In this work, we analyze the spin alignment of vector mesons $\phi$ and $\rho$ induced by rotation from quark dynamics in the framework of the Nambu-Jona-Lasinio (NJL) model. The rotating angular velocity induces mass splitting of spin components for vector $\phi,\rho$ mesons $M_{\phi,\rho}(\Omega)\simeq M_{\phi,\rho}(\Omega=0)-s_{z}\Omega$. This behavior contributes to the spin alignment of vector mesons $\phi,\rho$ in an equilibrium medium and naturally explains the negative deviation of $\rho_{00}-1/3$ for vector mesons. Incidentally, the positive deviation of $\rho_{00}-1/3$ under the magnetic field can also be easily understood from quark dynamics., Comment: 12 pages, 8 figures

Published
2023
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46. New data of seed flora in Hengduan Mountain in Xizang, China

Author

CHEN Xuyan, LIU Xingyu, JIANG Zhimin, HUANG Mei, DING Shan, and GAO Gang

Subjects
northern hengduan mountains, new record of xizang, spermatophytes, Biology (General), QH301-705.5, Botany, QK1-989
Abstract

Abstract [Objective] The Northern Hengduan Mountains are rich in biodiversity. Over the last 10 years, there have been many reports of the biodiversity of the region. The team conducted a survey of plant diversity and vegetation structure in Northern Hengduan Mountains from June to August 2023. [Methods] Through field investigation and collection and photograph of plants, as well as preparing, classifying, and identifying specimens. [Results] Eight newly recorded species were reported from Chaya of Changdu in the Northern Hengduan Mountains in Xizang. They were Ephedra minuta Florin (Ephedraceae), Caragana korshinskii Kom. (Fabaceae), Rhododendron luhuoense H. P. Yang (Ericaceae), R. orthocladum var. longistylum Philipson et M. N. Philipson (Ericaceae), R. thymifolium Maxim. (Ericaceae), R. nivale Hook. f. subsp. australe Philipson et M. N. Philipson (Ericaceae), Artemisia capillaris Thunb. (Asteraceae), and Chenopodiastrum gracilispicum (H.W.Kung) Uotila (Amaranthaceae) [Conclusion] The discovery of the newly distributed plants is an important supplement for the flora of the Hengduan Mountains in Xizang. The voucher specimens are stored in the herbarium of Yibin University

Published
2024
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49. A comprehensive Drosophila resource to identify key functional interactions between SARS-CoV-2 factors and host proteins.

Author

Guichard, Annabel, Lu, Shenzhao, Kanca, Oguz, Bressan, Daniel, Huang, Yan, Ma, Mengqi, Sanz Juste, Sara, Andrews, Jonathan, Jay, Kristy, Sneider, Marketta, Schwartz, Ruth, Huang, Mei-Chu, Bei, Danqing, Pan, Hongling, Ma, Liwen, Lin, Wen-Wen, Bhagwat, Pranjali, Park, Soo, Wan, Kenneth, Ohsako, Takashi, Takano-Shimizu, Toshiyuki, Celniker, Susan, Wangler, Michael, Yamamoto, Shinya, Bellen, Hugo, Bier, Ethan, and Auradkar, Ankush

Subjects
ATE1, CP: Microbiology, DRC, Drosophila, Drosophila Covid-19 resource, NSP8, NSPs, Orf3a, SARS-CoV-2, arginylation, human interactors, non-structural proteins, Humans, Animals, SARS-CoV-2, COVID-19, Drosophila, Actins, Animals, Genetically Modified
Abstract

Development of effective therapies against SARS-CoV-2 infections relies on mechanistic knowledge of virus-host interface. Abundant physical interactions between viral and host proteins have been identified, but few have been functionally characterized. Harnessing the power of fly genetics, we develop a comprehensive Drosophila COVID-19 resource (DCR) consisting of publicly available strains for conditional tissue-specific expression of all SARS-CoV-2 encoded proteins, UAS-human cDNA transgenic lines encoding established host-viral interacting factors, and GAL4 insertion lines disrupting fly homologs of SARS-CoV-2 human interacting proteins. We demonstrate the utility of the DCR to functionally assess SARS-CoV-2 genes and candidate human binding partners. We show that NSP8 engages in strong genetic interactions with several human candidates, most prominently with the ATE1 arginyltransferase to induce actin arginylation and cytoskeletal disorganization, and that two ATE1 inhibitors can reverse NSP8 phenotypes. The DCR enables parallel global-scale functional analysis of SARS-CoV-2 components in a prime genetic model system.

Published
2023

50. Deciding on the anomalous magnetic moment of quarks in a framework of nonlocal NJL model

Author

Islam, Chowdhury Aminul, Ali, Mahammad Sabir, and Huang, Mei

Subjects
High Energy Physics - Phenomenology, Nuclear Theory
Abstract

Anomalous magnetic moment (AMM) of quarks in presence of an external magnetic field has been explored using a nonlocal Nambu\textemdash Jona-Lasinio (NJL) model. Various strengths of AMM differing in orders of magnitude are used in the literature. We explore them in our nonlocal framework to decide on their strength. We checked the validity of using constant AMM of quarks and investigate two different temperature and magnetic field dependent forms. The forms are taken as the AMM being proportional to the i) meanfield and the ii) square of the meanfield. On comparison with the lattice data for both the condensate averages and differences, it turns out that the second choice is the most suitable one, in such an effective model scenario. In the process, we also keep track of the phase diagram in the $T-eB$ plane arising from our model calculation. The outcome is reasonable as far as the lattice QCD result is concerned., Comment: 13 pages, 8 captioned figures, Comments are welcome

Published
2023

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