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1. Collisional dynamics of symmetric two-dimensional quantum droplets

Author

Hu, Yanming, Fei, Yifan, Chen, Xiao-Long, and Zhang, Yunbo

Subjects
Condensed Matter - Quantum Gases
Abstract

The collisional dynamics of two symmetric droplets with equal intraspecies scattering lengths and particle number density for each component is studied by solving the corresponding extended Gross-Pitaevskii equation in two dimensions by including a logarithmic correction term in the usual contact interaction. We find the merging droplet after collision experiences a quadrupole oscillation in its shape and the oscillation period is found to be independent of the incidental momentum for small droplets. With increasing collision momentum the colliding droplets may separate into two, or even more, and finally into small pieces of droplets. For these dynamical phases, we manage to present boundaries determined by the remnant particle number in the central area and the damped oscillation of the quadrupole mode. A stability peak for the existence of droplets emerges at the critical particle number $N_c \simeq 48$ for the quasi-Gaussian and flat-top shapes of the droplets., Comment: 7 pages, 4 figures

Published
2024
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2. Two atoms in a harmonic trap with spin-orbital-angular-momentum coupling

Author

Chen, Xiao-Long, Chen, Aixi, and Peng, Shi-Guo

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Strongly Correlated Electrons
Abstract

We study the problem of two harmonically trapped atoms in the presence of spin-orbital-angular-momentum (SOAM) coupling. The two-body energy spectrum is numerically calculated by utilizing the exact diagonalization method. We analyze how the degeneracy of energy levels is lifted under the interplay between the interatomic interaction and SOAM coupling. The exact numerical results show excellent agreement with that of perturbation theory in the weak-interaction limit as well as that in the absence of SOAM coupling. The properties of correlations between the two atoms are also discussed with respect to the interaction strength. The findings in this paper may provide valuable insights into few-body physics subjected to SOAM coupling and the possible experimental detection of spectrum functions in many-body systems, such as radiofrequency spectroscopy., Comment: 12 pages, 5 figures

Published
2024
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3. Collective excitations in two-dimensional harmonically trapped quantum droplets

Author

Fei, Yifan, Du, Xucong, Chen, Xiao-Long, and Zhang, Yunbo

Subjects
Condensed Matter - Quantum Gases
Abstract

The collective excitation modes in quantum droplets trapped in a two-dimensional harmonic potential in the context of symmetric weakly interacting binary bosonic mixtures are studied. By utilizing the linearization technique, the time-dependent extended Gross-Pitaevskii equation, and a sum-rule approach with a variational approximation, the ground state properties and collective excitations of such a two-dimensional quantum system are investigated for various system parameters. We present comprehensive analysis and calculations on the effect of the confinement strength and anisotropy of the trapping potential, the number of atoms in the droplet, and the collective excitation modes. The radius of the droplet, as well as the chemical potential, is non-monotonically related to the number of atoms in the droplet, and the confinement tends to shift the minimum values towards the ideal gas limit. The excitation frequency peaks, which are prominent in a self-bounded droplet, become less pronounced and smoother when subjected to a strong trapping potential. The sum-rule approach fails to reproduce the breathing mode frequency for a moderate number of atoms in a weak trapping potential, however, works perfectly well in a strong confinement. It was found that the anisotropy in the trap eliminates the degeneracy between the quadrupole and scissors modes that occurs in an isotropic trap, causing the frequencies of these two modes to immediately diverge from each other for any degree of anisotropy. These findings provide valuable insights into the unique characteristics and behavior of quantum droplets, offering potential implications for future research and applications in the dynamic behaviors of intriguing quantum droplets., Comment: 12 pages, 6 figures

Published
2024
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4. Ground-state Properties and Bogoliubov Modes of a Harmonically Trapped One-Dimensional Quantum Droplet

Author

Du, Xucong, Fei, Yifan, Chen, Xiao-Long, and Zhang, Yunbo

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

We study the stationary and excitation properties of a one-dimensional quantum droplet in the two-component Bose mixture trapped in a harmonic potential. By constructing the energy functional for the inhomogeneous mixture, we elaborate the extended the Gross-Pitaevskii equation applicable to both symmetric and asymmetric mixtures into a universal form, and the equations in two different dimensionless schemes are in a duality relation, i.e. the unique parameters left are inverse of each other. The Bogoliubov equations for the trapped droplet are obtained by linearizing the small density fluctuation around the ground state and the low-lying excitation modes are calculated numerically.It is found that the confinement trap changes easily the flat-top structure for large droplets and alters the mean square radius and the chemical potential intensively. The breathing mode of the confined droplet connects the self-bound and ideal gas limits, with the excitation in the weakly interacting Bose condensate for large particle numbers lying in between. We explicitly show how the continuum spectrum of the excitation is split into discrete modes, and finally taken over by the harmonic trap. Two critical particle numbers are identified by the minimum size of the trapped droplet and the maximum breathing mode energy, both of which are found to decrease exponentially with the trapping parameter., Comment: 11 pages, 7 figures

Published
2023
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5. Spin-orbital-angular-momentum-coupled quantum gases

Author

Peng, Shi-Guo, Jiang, Kaijun, Chen, Xiao-Long, Chen, Ke-Ji, Zou, Peng, and He, Lianyi

Subjects
Condensed Matter - Quantum Gases
Abstract

We briefly review the recent progress of theories and experiments on spin-orbital-angular-momentum (SOAM)-coupled quantum gases. The coupling between the intrinsic degree of freedom of particles and their external orbital motions widely exists in universe, and leads to a broad variety of fundamental phenomena both in the classical physics and quantum mechanics. Recent realization of synthetic SOAM coupling in cold atoms has attracted a great deal of attention, and stimulates a large amount of considerations on exotic quantum phases in both Bose and Fermi gases. In this review, we present a basic idea of engineering SOAM coupling in neutral atoms, starting from a semiclassical description of atom-light interaction. Unique features of the single-particle physics in the presence of SOAM coupling are discussed. The intriguing ground-state quantum phases of weakly interacting Bose gases are introduced, with emphasis on a so-called angular stripe phase, which has yet been observed at present. It is demonstrated how to generate a stable giant vortex in a SOAM-coupled Fermi superfluid. We also discuss topological characters of a Fermi superfluid in the presence of SOAM coupling. We then introduce the experimental achievement of SOAM coupling in $^{87}$Rb Bose gases and its first observation of phase transitions. The most recent development of SOAM-coupled Bose gases in experiments is also summarized. Regarding the controllability of ultracold quantum gases, it opens a new era, on the quantum simulation point of view, to study the fundamental physics resulted from SOAM coupling as well as newly emergent quantum phases., Comment: A brief review on the recent progress of spin-orbital-angular-momentum-coupled quantum gases. Comments are welcome

Published
2022
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6. Superfluidity of a Raman spin-orbit-coupled Bose gas at finite temperature

Author

Chen, Xiao-Long, Liu, Xia-Ji, and Hu, Hui

Subjects
Condensed Matter - Quantum Gases
Abstract

We investigate the superfluidity of a three-dimensional weakly interacting Bose gas with a one-dimensional Raman-type spin-orbit coupling at both zero and finite temperatures. Using the imaginary-time Green's function within the Bogoliubov approximation, we explicitly derive analytic expressions of the current-current response functions in the plane-wave and zero-momentum phases, from which we extract the superfluid density in the limits of long wavelength and zero frequency. At zero temperature, we check that the resultant superfluid density agrees exactly with our previous analytic prediction obtained from a phase-twist approach. Both results also satisfy a generalized Josephson relation in the presence of spin-orbit coupling. At finite temperature, we find a significant non-monotonic temperature dependence of superfluid density near the transition from the plane-wave phase to the zero-momentum phase. We show that this non-trivial behavior might be understood from the sound velocity, which has a similar temperature dependence. The non-monotonic temperature dependence is also shared by Landau critical velocity, above which the spin-orbit-coupled Bose gas loses its superfluidity. Our results would be useful for further theoretical and experimental studies of superfluidity in exotic spin-orbit coupled quantum gases., Comment: 14 pages, 4 figures

Published
2022
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7. Probing two Higgs oscillations in a one-dimensional Fermi superfluid with Raman-type spin-orbit coupling

Author

Fan, Genwang, Chen, Xiao-Long, and Zou, Peng

Subjects
Condensed Matter - Quantum Gases
Abstract

We theoretically investigate the Higgs oscillation in a one-dimensional Raman-type spin-orbit-coupled Fermi superfluid with the time-dependent Bogoliubov-de Gennes equations. By linearly ramping or abruptly changing the effective Zeeman field in both the Bardeen-Cooper-Schrieffer state and the topological superfluid state, we find the amplitude of the order parameter exhibits an oscillating behaviour over time with two different frequencies (i.e., two Higgs oscillations) in contrast to the single one in a conventional Fermi superfluid. The observed period of oscillations has a great agreement with the one calculated using the previous prediction [Volkov and Kogan, J. Exp. Theor. Phys. 38, 1018 (1974)], where the oscillating periods are now determined by the minimums of two quasi-particle spectrum in this system. We further verify the existence of two Higgs oscillations using a periodic ramp strategy with theoretically calculated driving frequency. Our predictions would be useful for further theoretical and experimental studies of these Higgs oscillations in spin-orbit-coupled systems., Comment: 8 pages, 8 figures

Published
2022
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13. Nonlinear Hall response in the driving dynamics of ultracold atoms in optical lattices

Author

Chen, Xiao-Long and Zheng, Wei

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We propose that a nonlinear Hall response can be observed in Bloch oscillations of ultracold atoms in optical lattices under the condition of preserved time-reversal symmetry. In the short-time limit of Bloch oscillations driven by a direct current (dc) field, the nonlinear Hall current dominates, being a second-order response to the external field strength. The associated Berry curvature dipole, which is a second-order nonlinear coefficient of the driving field, can be obtained from the oscillation of atoms. In an alternating current (ac) driving field, the nonlinear Hall response has a double frequency of the driving force in the case of time-reversal symmetry., Comment: 7 pages, 6 figures

Published
2021
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14. Dynamical generation of solitons in one-dimensional Fermi superfluids with and without spin-orbit coupling

Author

Kong, Lingchii, Fan, Genwang, Peng, Shi-Guo, Chen, Xiao-Long, Zhao, Huaisong, and Zou, Peng

Subjects
Condensed Matter - Quantum Gases
Abstract

We theoretically generalize a systematic language to describe the phase-imprinting technique to investigate the dynamical generation of solitons in a one-dimensional Raman-type spin-orbit-coupled Fermi superfluid. We check our method with the simulation of time-dependent Bogoliubov-de Gennes equations and find that our method not only can generate stable dark and even gray solitons in a conventional Fermi superfluid by controlling the transferred phase jump but also is feasible to create a stable dark soliton in both BCS and topological states of a spin-orbit-coupled Fermi superfluid. We also discuss the physical implication of our method., Comment: 10 pages, 12 figures

Published
2020
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17. Six empirical essays on firm performance and internationalization (foreign direct investment and trade)

Author

Chen, Xiao Long and Mishra, Tapas

Abstract

This thesis theoretically and empirically explores firm performance mostly when firms conduct international operation by linking internal, external, direct, and indirect factors, including five-country components including human capital, institution, market competition, cluster development, and market size, export behaviors based on productivity cut-off, horizontal, backward and forward FDI agglomerations, the dynamic effect between FDI and trade, financial constraints in R&D investment, and the "black box" of firm efficiency. This thesis consists of six core chapters (Chapter 2-7) related to micro and macro studies. The study samples used in this thesis include the cross-sectional data obtained from 234 previous empirical studies in terms of firm performance and internationalization during the period 1969-2017 in Chapter 2, the panel data of 208,424 Chinese firms during the period 2005- 2007 in Chapter 3, the panel data of 12,240 Chinese firms during the period 2010-2013 in Chapter 4, the panel data of China's 151 target countries during the 2007-2017 period in Chapter 5, the panel data of 414 British manufacturing firms during the period 2009-2018 in Chapter 6, and the panel data of 123 British listed manufacturing firms during the period 2006-2018 in Chapter 7. Due to the different study purposes in the six chapters, the study III data used in this study are from various data resources and different timelines. Even if this study uses the same database, such as China's Annual Industry Survey Database in Chapter 3 and Chapter 4, this study also uses a different timeline because of the non-availability of data for a consistent panel of firms. Furthermore, the analytic methods correspondingly used in this thesis mainly involve the comparative MAR with VWLS, Heckman two-stage procedure with Probit and Tobit models, analytical method of ROC, spatial econometric model, global PCA and system GMM, heterogeneity SFA with one stage, and two-stage (DEA and Tobit) model and three-stage (DEA-SFA) model. There are multiple insight findings in this thesis. In Chapter 2, the five-country components, including human capital, institution, market competition, cluster development, and market size, substantially mediate the I-P relationship. Furthermore, the five-country components exert a positive mediating effect on the I-P relationship in developed countries while negatively mediating the I-P relationship in developing countries. In Chapter 3, productivity is likely to impact on firm's export propensity and irregular export positively. In contrast, it negatively affects the firm's export intensity and does not impact the firm's regular export. Enhancing productivity cut-off is not conducive to the firm's export propensity and regular export while it does not affect the firm's export intensity and irregular export. Productivity cut-off tends to impact on firm's export decision rather than its export scale. Moreover, firms with regular export are more sensitive to productivity cut-off than firms with irregular export. In Chapter 4, the congestion effect (inverted U-shaped relationship) dominates the three types of FDI agglomerations on the local firm's productivity. The congestion effect also dominates the spatial backward and forward FDI agglomerations on neighboring firms' productivity, while a U-shaped relationship dominates the spatial horizontal FDI agglomeration on neighboring firms' productivity. Furthermore, the interaction intensity of backward and forward FDI agglomerations with local and neighboring firms is similar and much stronger than horizontal FDI agglomeration. In Chapter 5, China is more likely to conduct horizontal FDI in developed countries, while vertical FDI in developing countries. There is a dynamic change from the substitution effect of FDI on export to the complementary effect of FDI on export along with the decreasing trend of horizontal motivation and the increasing trend of vertical motivation. In Chapter 6, the firm's financial constraints in R&D have a vital impact on its productivity and future financing uncertainty and show a difference in low, middle, and high-tech industries. Furthermore, the loss of firm productivity is about 20% due to its financial constraints in IV R&D investment. In Chapter 7, the firm's technical, pure technical, and scale efficiencies reach a relatively high level (between 0.93 and 1) while its operational efficiency (between 0.65 and 0.7) and profitability efficiency (between 0.85 and 0.9) have a large room to improve. Moreover, the overall environment has a significant impact on firm efficiency in middle and high-tech industries than that in the low-tech sector. Therefore, the various findings in the six core chapters provide important implications for government policies and firm's domestic and foreign operations.

Published
2021

19. Charm and beauty isolation from heavy flavor decay electrons in Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 200 GeV at RHIC

Author

Si, Fan, Chen, Xiao-Long, Zhou, Long, Zhang, Yi-Fei, Zhang, Sheng-Hui, Ju, Xin-Yue, Li, Xiu-Jun, Dong, Xin, and Xu, Nu

Subjects
Nuclear Experiment
Abstract

We present a study of charm and beauty isolation based on a data-driven method with recent measurements on heavy flavor hadrons and their decay electrons in Au+Au collisions at $\sqrt{s_{\rm NN}}$ = 200 GeV at RHIC. The individual electron $p_{\rm T}$ spectra, $R_{\rm AA}$ and $v_2$ distributions from charmed and beauty hadron decays are obtained. We find that the electron $R_{\rm AA}$ from beauty hadron decays ($R_{\rm AA}^{\rm b\rightarrow e}$) is suppressed in minimum bias Au+Au collisions but less suppressed compared with that from charmed hadron decays at $p_{\rm T}$ $>$ 3.5 GeV/$c$, which indicates that beauty quark interacts with the hot-dense medium with depositing its energy and is consistent with the mass-dependent energy loss scenario. For the first time, the non-zero electron $v_2$ from beauty hadron decays ($v_2^{\rm b\rightarrow e}$) at $p_{\rm T}$ $>$ 3.0 GeV/$c$ is observed and shows smaller elliptic flow compared with that from charmed hadron decays at $p_{\rm T}$ $<$ 4.0 GeV/$c$. At 2.5 GeV/$c$ $<$ $p_{\rm T}$ $<$ 4.5 GeV/$c$, $v_2^{\rm b\rightarrow e}$ is smaller than a number-of-constituent-quark (NCQ) scaling hypothesis. This suggests that beauty quark is unlikely thermalized and too heavy to be moved in a partonic collectivity in heavy-ion collisions at the RHIC energy., Comment: 6 pages, 4 figures

Published
2019
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20. Angular Stripe Phase in Spin-Orbital-Angular-Momentum Coupled Bose Condensates

Author

Chen, Xiao-Long, Peng, Shi-Guo, Zou, Peng, Liu, Xia-Ji, and Hu, Hui

Subjects
Condensed Matter - Quantum Gases, Physics - Atomic Physics, Quantum Physics
Abstract

We propose that novel superfluid with supersolid-like properties - angular stripe phase - can be realized in a pancake-like spin-1/2 Bose gas with spin-orbital-angular-momentum coupling. We predict a rich ground-state phase diagram, including the vortex-antivortex pair phase, half-skyrmion phase, and two different angular stripe phases. The stripe phases feature modulated angular density-density correlation with sizable contrast and can occupy a relatively large parameter space. The low-lying collective excitations, such as the dipole and breathing modes, show distinct behaviors in different phases. The existence of the novel stripe phase is also clearly indicated in the energetic and dynamic instabilities of collective modes near phase transitions. Our predictions of the angular stripe phase could be readily examined in current cold-atom experiments with $^{87}$Rb and $^{41}$K., Comment: 5+3 pages, 4+2 figures

Published
2019
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24. Observation of quantum phase transition in spin-orbital-angular-momentum coupled Bose-Einstein condensate

Author

Zhang, Dongfang, Gao, Tianyou, Zou, Peng, Kong, Lingran, Li, Ruizong, Shen, Xing, Chen, Xiao-Long, Peng, Shi-Guo, Zhan, Mingsheng, Pu, Han, and Jiang, Kaijun

Subjects
Condensed Matter - Quantum Gases, Physics - Atomic Physics, Quantum Physics
Abstract

Orbital angular momentum (OAM) of light represents a fundamental optical freedom that can be exploited to manipulate quantum state of atoms. In particular, it can be used to realize spin-orbital-angular-momentum (SOAM) coupling in cold atoms by inducing an atomic Raman transition using two laser beams with differing OAM. Rich quantum phases are predicted to exist in many-body systems with SOAM coupling. Their observations in laboratory, however, are often hampered by the limited control of the system parameters. In this work we report, for the first time, the experimental observation of the ground-state quantum phase diagram of the SOAM coupled Bose-Einstein condensate (BEC). The discontinuous variation of the spin polarization as well as the vorticity of the atomic wave function across the phase boundaries provides clear evidence of first-order phase transitions. Our results open up a new way to the study of phase transitions and exotic quantum phases in quantum gases., Comment: 11 pages, 7 figures, correction for the numbers of some references in the main text

Published
2018
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25. Quantum depletion and superfluid density of a supersolid in Raman spin-orbit coupled Bose gases

Author

Chen, Xiao-Long, Wang, Jia, Li, Yun, Liu, Xia-Ji, and Hu, Hui

Subjects
Condensed Matter - Quantum Gases
Abstract

We theoretically investigate a three-dimensional weakly interacting Bose gas with one-dimensional Raman-type spin-orbit coupling at zero temperature. By employing an improved ansatz, including high-order harmonics in the stripe phase, we show that the critical transition from the stripe to the plane-wave phases is shifted to a relatively larger Rabi frequency compared to the prediction by previous work [Li $\textit{et al.}$, Phys. Rev. Lett. $\textbf{108}$, 225301 (2012)] using a first-order stripe ansatz. We also determine the quantum depletion and superfluid density over a large range of Rabi frequency in different phases. The depletion exhibits an intriguing behavior with a discontinuous jump at the transition between the stripe and plane-wave phases, and a maximum at the transition between the plane-wave and zero-momentum phases. The superfluid density is derived through a phase-twist method. In the plane-wave and zero-momentum phases, it is significantly suppressed along the spin-orbit-coupling direction and vanishes at the transition, consistent with a recent work [Zhang $\textit{et al.}$, Phys. Rev. A $\textbf{94}$, 033635 (2016)], while in the stripe phase, it smoothly decreases with increasing Rabi frequency. Our predictions would be useful for further theoretical and experimental studies of the exotic supersolid stripe phase., Comment: 10 pages, 6 figures

Published
2018
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30. Quantum and thermal fluctuations in a Raman spin-orbit coupled Bose gas

Author

Chen, Xiao-Long, Liu, Xia-Ji, and Hu, Hui

Subjects
Condensed Matter - Quantum Gases
Abstract

We theoretically study a three-dimensional weakly-interacting Bose gas with Raman-induced spin-orbit coupling at finite temperature. By employing a generalized Hartree-Fock-Bogoliubov theory with Popov approximation, we determine a complete finite-temperature phase diagram of three exotic condensation phases (i.e., the stripe, plane-wave and zero-momentum phases), against both quantum and thermal fluctuations. We find that the plane-wave phase is significantly broadened by thermal fluctuations. The phonon mode and sound velocity at the transition from the plane-wave phase to the zero-momentum phase are thoughtfully analyzed. At zero temperature, we find that quantum fluctuations open an unexpected gap in sound velocity at the phase transition, in stark contrast to the previous theoretical prediction of a vanishing sound velocity. At finite temperature, thermal fluctuations continue to significantly enlarge the gap, and simultaneously shift the critical minimum. For a Bose gas of $^{87}$Rb atoms at the typical experimental temperature, $T=0.3T_{0}$, where $T_{0}$ is the critical temperature of an ideal Bose gas without spin-orbit coupling, our results of gap opening and critical minimum shifting in the sound velocity, are qualitatively consistent with the recent experimental observation {[}S.-C. Ji \textit{et al.}, Phys. Rev. Lett. \textbf{114}, 105301 (2015){]}., Comment: 6 pages, 4 figures

Published
2017
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31. The AP-2 Family of Transcription Factors—Still Undervalued Regulators in Gastroenterological Disorders.

Author

Yu, Yi-Jin, Kołat, Damian, Kałuzińska-Kołat, Żaneta, Liang, Zhu, Peng, Bo-Qiang, Zhu, Yun-Feng, Liu, Kai, Mei, Jia-Xin, Yu, Gang, Zhang, Wei-Han, Chen, Xiao-Long, Yang, Kun, Hu, Jian-Kun, and Zhao, Lin-Yong

Subjects
DRUG resistance in cancer cells, GASTROINTESTINAL cancer, TYPE 2 diabetes, GASTROINTESTINAL tumors, STOMACH cancer
Abstract

Activating enhancer-binding protein 2 (AP-2) is a family of transcription factors (TFs) that play crucial roles in regulating embryonic and oncogenic development. In addition to splice isoforms, five major family members encoded by the TFAP2A/B/C/D/E genes have been identified in humans, i.e., AP-2α/β/γ/δ/ε. In general, the first three TFs have been studied more thoroughly than AP-2δ or AP-2ε. Currently, there is a relatively limited body of literature focusing on the AP-2 family in the context of gastroenterological research, and a comprehensive overview of the existing knowledge and recommendations for further research directions is lacking. Herein, we have collected available gastroenterological data on AP-2 TFs, discussed the latest medical applications of each family member, and proposed potential future directions. Research on AP-2 in gastrointestinal tumors has predominantly been focused on the two best-described family members, AP-2α and AP-2γ. Surprisingly, research in the past decade has highlighted the importance of AP-2ε in the drug resistance of gastric cancer (GC) and colorectal cancer (CRC). While numerous questions about gastroenterological disorders await elucidation, the available data undoubtedly open avenues for anti-cancer targeted therapy and overcoming chemotherapy resistance. In addition to gastrointestinal cancers, AP-2 family members (primarily AP-2β and marginally AP-2γ) have been associated with other health issues such as obesity, type 2 diabetes, liver dysfunction, and pseudo-obstruction. On the other hand, AP-2δ has been poorly investigated in gastroenterological disorders, necessitating further research to delineate its role. In conclusion, despite the limited attention given to AP-2 in gastroenterology research, pivotal functions of these transcription factors have started to emerge and warrant further exploration in the future. [ABSTRACT FROM AUTHOR]

Published
2024
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34. An Experimental Study of Sea Target Detection of Passive Bistatic Radar Based on Non-cooperative Radar Illuminators

Author

Song, Jie, Wang, Guo-qing, Chen, Xiao-long, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zhang, Junjie James, Series Editor, Wang, Wei, editor, Liu, Xin, editor, Na, Zhenyu, editor, Jia, Min, editor, and Zhang, Baoju, editor

Published
2020
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35. Probing an effective-range-induced super fermionic Tonks-Girardeau gas with ultracold atoms in one-dimensional harmonic traps

Author

Chen, Xiao-Long, Liu, Xia-Ji, and Hu, Hui

Subjects
Condensed Matter - Quantum Gases
Abstract

We theoretically investigate an ultracold spin-polarized atomic Fermi gas with resonant odd-channel ($p$-wave) interactions trapped in one-dimensional harmonic traps. We solve the Yang-Yang thermodynamic equations based on the exact Bethe ansatz solution, and predict the finite-temperature density profile and breathing mode frequency, by using a local density approximation to take into account the harmonic trapping potential. The system features an exotic super fermionic Tonks-Girardeau (super-fTG) phase, due to the large effective range of the interatomic interactions. We explore the parameter space for such a fascinating super-fTG phase at finite temperature and provide smoking-gun signatures of its existence in both breathing mode frequencies and density profiles. Our results suggest that the super-fTG phase can be readily probed at temperature at about $0.1T_{F}$, where $T_{F}$ is the Fermi temperature. These results are to be confronted with future cold-atom experiments with $^{6}$Li and $^{40}$K atoms., Comment: 6 pages, 4 figures

Published
2016
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37. Collective modes of a harmonically trapped one-dimensional Bose gas: the effects of finite particle number and nonzero temperature

Author

Chen, Xiao-Long, Li, Yun, and Hu, Hui

Subjects
Condensed Matter - Quantum Gases
Abstract

Following the idea of the density functional approach, we develop a generalized Bogoliubov theory of an interacting Bose gas confined in a one-dimensional harmonic trap, by using a local chemical potential - calculated with the Lieb-Liniger exact solution - as the exchange energy. At zero temperature, we use the theory to describe collective modes of a finite-particle system in all interaction regimes from the ideal gas limit, to the mean-field Thomas-Fermi regime, and to the strongly interacting Tonks-Girardeau regime. At finite temperature, we investigate the temperature dependence of collective modes in the weak-coupling regime by means of a Hartree-Fock-Bogoliubov theory with Popov approximation. By emphasizing the effects of finite particle number and nonzero temperature on collective mode frequencies, we make comparisons of our results with the recent experimental measurement [E. Haller et al., Science 325, 1224 (2009)] and some previous theoretical predictions. We show that the experimental data are still not fully explained within current theoretical framework., Comment: 10 pages, 8 figures

Published
2015
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42. Jin-Gu-Lian Capsule Did Not Significantly Improve Clinical Value in Rheumatoid Arthritis Therapy: A Real-World Study.

Author

Chen, Yong, He, Mang, Zhao, Si-Jin, Chen, Yan-Juan, Zhang, Yong-Qiao, Chen, Xiao-Long, Yang, Chuan-Jie, Luo, Yu-Zhuo, Nandakumar, Kutty Selva, Xing, Zhou-Xiong, and Tian, Mei

Subjects
CHINESE medicine, HERPES zoster, HOSPITALS, HYDROXYCHLOROQUINE, INFORMATION storage & retrieval systems
Abstract

Purpose: To investigate the clinical value of adding Jin-gu-lian (JGL) capsules into rheumatoid arthritis (RA) treatment by examining its impact on disease activity and quality of life (QoL) through a real-world study (RWS). Patients and methods: RWS was conducted to compare the inflammatory markers, including IgM-RF, ESR, and CRP, between RA patients treated with only Western medicine (reference group) and Western medicine plus JGL (study group) during one-year follow-up. The clinical data was acquired from the hospital information system (HIS). Telephone call-based follow-up on QoL (SF-36) and accompanying symptoms, including gastrointestinal complaints, attacks of pneumonia, herpes zoster, URTIs, UTIs, and LTBIs. Finally, the anti-rheumatic drugs given to both groups were also compared. RWS was further validated for its feasibility by performing studies with hydroxychloroquine (HCQ) treatment, which is a commonly used anti-rheumatic drug for RA with mild effect. Results: The study group failed to show a significant effect on inflammatory markers, especially on the CRP levels, indicating no additional clinical value of supplementing with JGL. Similarly, at the endpoint, no significant differences between the two groups on QoL and related symptoms were observed. Our study suggests that the patients in the study group might need more anti-rheumatic drugs to fill the treatment insufficiency, and the application ratio of NSAIDs would be significantly higher than the reference group. By conducting this study on HCQ treatment, the positive aspects of controlling disease activity and reducing NSAIDs application were found, which demonstrates the utility of performing the RWS to evaluate the effect of JGL. Conclusion: Adding JGL did not significantly improve the clinical efficacy of RA treatment by this RWS. Folk herbal prescriptions such as JGL are suggested to underwent strict clinical trials before application. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Is Preoperative Fibrinogen Associated with the Survival Prognosis of Gastric Cancer Patients? A Multi-centered, Propensity Score-Matched Retrospective Study

Author

Zhao, Lin-Yong, Zhao, Yong-Liang, Wang, Jun-Jiang, Zhao, Qi-Di, Yi, Wen-Qi, Yuan, Qing, Chen, Xin-Zu, Li, Yong, Yang, Kun, Chen, Xiao-Long, Zhang, Wei-Han, Liu, Kai, Pang, Hua-Yang, Galiullin, Danil, Wang, Hui, Sun, Li-Fei, Song, Xiao-Hai, Zheng, Jia-Bin, Yao, Xue-Qing, Zhou, Zong-Guang, Yu, Pei-Wu, and Hu, Jian-Kun

Published
2020
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