Your search keyword '"Wu Xiao-chuan"' showing total 38 results

1. Corner Charge Fluctuations and Many-Body Quantum Geometry

Author

Wu, Xiao-Chuan, Cai, Kang-Le, Cheng, Meng, and Kumar, Prashant

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Statistical Mechanics, High Energy Physics - Theory, Quantum Physics

Abstract

In many-body systems with U(1) global symmetry, the charge fluctuations in a subregion reveal important insights into entanglement and other global properties. For subregions with sharp corners, bipartite fluctuations have been predicted to exhibit a universal shape dependence on the corner angle in certain quantum phases and transitions, characterized by a "universal angle function" and a "universal coefficient." However, we demonstrate that this simple formula is insufficient for charge insulators, including composite fermi liquids. In these systems, the corner contribution may depend on the corner angle, subregion orientation, and other microscopic details. We provide an infinite series representation of the corner term, introducing orientation-resolved universal angle functions with their non-universal coefficients. In the small-angle limit or under orientation averaging, the remaining terms' coefficients are fully determined by the many-body quantum metric, which, while not universal, adheres to both a universal topological lower bound and an energetic upper bound. We also clarify the conditions for bound saturation in (anisotropic) Landau levels, leveraging the generalized Kohn theorem and holomorphic properties of many-body wavefunctions. We find that a broad class of fractional quantum Hall wavefunctions, including unprojected parton states and composite-fermion Fermi sea wavefunctions, saturates the bounds., Comment: 32 pages, 7 figures

Published

2024

2. Pristine and Pseudo-gapped Boundaries of the Deconfined Quantum Critical Points

Author

Myerson-Jain, Nayan, Wu, Xiao-Chuan, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Bulk topology and criticality can both lead to nontrivial boundary effects. Topological orders are often characterized by their robust edge states, while bulk critical points can have different boundary scalings governed by boundary conditions. The interplay between these two different boundary effects is an intriguing problem. The boundary of the deconfined quantum critical point (DQCP) is the ideal platform for the interplay of the two boundary effects, as the DQCP is also an intrinsically gapless symmetry protected topological (igSPT) state. In this work we discuss the boundary of several analogues of the DQCP. We demonstrate that the fluctuation of the bulk order parameters and their various boundary conditions lead to a rich possibility of the edge states, including a "pseudogap" (or super power-law decay) behavior. We also discuss the quantum information perspective of our work, i.e. the implication of our results on DQCP under weak-measurement. Weak-measurement followed by post-selection can change the boundary condition at the temporal boundary in the path-integral representation of a density matrix, which will lead to different behaviors of the "strange correlator"., Comment: 9 pages

Published

2024

3. Bipartite Fluctuations of Critical Fermi Surfaces

Author

Wu, Xiao-Chuan

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Statistical Mechanics, High Energy Physics - Theory

Abstract

Fluctuations of conserved quantities within a subsystem are non-local observables that provide unique insights into quantum many-body systems. In this paper, we explore the behaviors of bipartite charge (and spin) fluctuations across interaction-driven "metal-insulator transitions" out of Landau Fermi liquids. The "charge insulators" include a class of non-Fermi-liquid states of fractionalized degrees of freedom, such as compressible composite Fermi liquids (for spinless electrons) and incompressible spin-liquid Mott insulators (for spin-$1/2$ electrons). We find that charge fluctuations $F$ exhibit distinct leading-order scalings across the phase transition: $F \sim L\log(L)$ in Landau Fermi liquids and $F \sim L$ in charge insulators, where $L$ is the linear size of the subsystem under bipartition. In the case of composite Fermi liquids (under certain conditions), we also identify a universal constant term $-f(\theta)|\sigma_{xy}|/(2\pi)$ arising when the subsystem geometry incorporates a sharp corner. Here, $f(\theta)$ represents a function of the corner angle, and $\sigma_{xy}$ denotes the Hall conductivity. At the critical point of each example, provided the transition is continuous, we find that the leading-order scaling $F \sim L$ is accompanied by a subleading universal corner contribution $-\log(L)f(\theta)C_{\rho}/2$ with the same angle dependence $f(\theta)$. The universal coefficient $C_{\rho}$ is linked to the predicted universal longitudinal (and Hall) resistivity jump $\Delta\rho_{xx}$ (and $\Delta\rho_{xy}$) at the critical point., Comment: 26 pages, 4 figures; updated discussion on charge insulators

Published

2024

4. Dynamical transition in controllable quantum neural networks with large depth

Author

Zhang, Bingzhi, Liu, Junyu, Wu, Xiao-Chuan, Jiang, Liang, and Zhuang, Quntao

Subjects

Quantum Physics, Condensed Matter - Statistical Mechanics, Computer Science - Machine Learning

Abstract

Understanding the training dynamics of quantum neural networks is a fundamental task in quantum information science with wide impact in physics, chemistry and machine learning. In this work, we show that the late-time training dynamics of quantum neural networks with a quadratic loss function can be described by the generalized Lotka-Volterra equations, which lead to a transcritical bifurcation transition in the dynamics. When the targeted value of loss function crosses the minimum achievable value from above to below, the dynamics evolve from a frozen-kernel dynamics to a frozen-error dynamics, showing a duality between the quantum neural tangent kernel and the total error. In both regions, the convergence towards the fixed point is exponential, while at the critical point becomes polynomial. We provide a non-perturbative analytical theory to explain the transition via a restricted Haar ensemble at late time, when the output state approaches the steady state. Via mapping the Hessian to an effective Hamiltonian, we also identify a linearly vanishing gap at the transition point. Compared with the linear loss function, we show that a quadratic loss function within the frozen-error dynamics enables a speedup in the training convergence. The theory findings are verified experimentally on IBM quantum devices., Comment: 11+45 pages, comments are welcomed

Published

2023

5. Dynamical transition in controllable quantum neural networks with large depth

Author

Zhang, Bingzhi, Liu, Junyu, Wu, Xiao-Chuan, Jiang, Liang, and Zhuang, Quntao

Published

2024

6. Diffusive Excitonic Bands from Frustrated Triangular Sublattice in a Singlet-Ground-State System

Author

Gao, Bin, Chen, Tong, Wu, Xiao-Chuan, Flynn, Michael, Duan, Chunruo, Chen, Lebing, Huang, Chien-Lung, Liebman, Jesse, Li, Shuyi, Ye, Feng, Stone, Matthew B., Podlesnyak, Andrey, Abernathy, Douglas L., Adroja, Devashibhai T., Le, Manh Duc, Huang, Qingzhen, Nevidomskyy, Andriy H., Morosan, Emilia, Balents, Leon, and Dai, Pengcheng

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Magnetic order in most materials occurs when magnetic ions with finite moments in a crystalline lattice arrange in a particular pattern below the ordering temperature determined by exchange interactions between the ions. However, when the crystal electric field (CEF) effect results in a spin-singlet ground state on individual magnetic sites, the collective ground state of the system can either remain non-magnetic, or more intriguingly, the exchange interactions between neighboring ions, provided they are sufficiently strong, can admix the excited CEF levels, resulting in a magnetically ordered ground state. The collective magnetic excitations in such a state are so-called spin excitons that describe the CEF transitions propagating through the lattice. In most cases, spin excitons originating from CEF levels of a localized single ion are dispersion-less in momentum (reciprocal) space and well-defined in both the magnetically ordered and paramagnetic states. Here we use thermodynamic and neutron scattering experiments to study stoichiometric Ni2Mo3O8 without site disorder, where Ni2+ ions form a bipartite honeycomb lattice comprised of two triangular lattices, with ions subject to the tetrahedral and octahedral crystalline environment, respectively. We find that in both types of ions, the CEF excitations have nonmagnetic singlet ground states, yet the material has long-range magnetic order. Furthermore, CEF spin excitons from the triangular-lattice arrangement of tetrahedral sites form, in both the antiferromagnetic and paramagnetic states, a dispersive diffusive pattern around the Brillouin zone boundary in reciprocal space. The present work thus demonstrates that spin excitons in an ideal triangular lattice magnet can have dispersive excitations, irrespective of the existence of static magnetic order, and this phenomenon is most likely due to spin entanglement and geometric frustrations.

Published

2023

7. Deconfined Quantum Critical Point with Non-locality

Author

Xu, Yichen, Wu, Xiao-Chuan, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The deconfined quantum critical point (DQCP) between the N\'{e}el and valence bond solid (VBS) order was originally proposed in quantum spin systems with a local Hamiltonian. In the last few years analogues of DQCPs with nonlocal interactions have been explored, which can lead to rich possibilities. The nonlocal interactions can either arise from an instantaneous long range interaction in the Hamiltonian, or from gapless modes that reside in one higher spatial dimension. Here we consider another mechanism of generating nonlocal interactions by coupling the DQCP to the "hot spots" of a Fermi surface. We demonstrate that at least within a substantial energy window, the physics of the DQCP is controlled by a new fixed point with dynamical exponent $z > 1$

Published

2022

8. A construction of exotic metallic states

Author

Wu, Xiao-Chuan, Xu, Yichen, Ye, Mengxing, Luo, Zhu-Xi, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We discuss examples of two dimensional metallic states with charge fractionalization, and we will demonstrate that the mechanism of charge fractionalization leads to exotic metallic behaviors at low and intermediate temperature. The simplest example of such state is constructed by fermionic partons at finite density coupled to a $Z_N$ gauge field, whose properties can be studied through rudimentary methods. This simple state has the following exotic features: (1) at low temperature this state is a "bad metal" whose resistivity can exceed the Mott-Ioffe-Regel limit; (2) while increasing temperature $T$ the resistivity $\rho(T)$ is a nonmonotonic function, and it crosses over from a bad metal at low $T$ to a good metal at relatively high $T$; (3) the optical conductivity $\sigma(\omega)$ has a small Drude weight at low $T$, and a larger Drude weight at intermediate $T$; (4) at low temperature the metallic state has a large Lorenz number, which strongly violates the Wiedemann-Franz law. A more complex example with fermionic partons at finite density coupled to a SU(N) gauge field will also be constructed., Comment: 8 pages, dedicated to Prof. Chen Ning Yang

Published

2022

9. Metal-Insulator Transition with Charge Fractionalization

Author

Xu, Yichen, Wu, Xiao-Chuan, Ye, Mengxing, Luo, Zhu-Xi, Jian, Chao-Ming, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

It has been proposed that an extended version of the Hubbard model which potentially hosts rich correlated physics may be well simulated by the transition metal dichalcogenide (TMD) moir\'{e} heterostructures. Motivated by recent reports of continuous metal-insulator transition (MIT) at half filling, as well as correlated insulators at various fractional fillings in TMD moir\'{e} heterostructures, we propose a theory for the potentially continuous MIT with fractionalized electric charges. The charge fractionalization at the MIT will lead to various experimental observable effects, such as a large critical resistivity as well as large universal resistivity jump at the continuous MIT. These predictions are different from previously proposed theory for interaction-driven continuous MIT. Physics in phases near the MIT will also be discussed., Comment: 24 pages, 4 figures

Published

2021

10. Universal Features of Higher-Form Symmetries at Phase Transitions

Author

Wu, Xiao-Chuan, Jian, Chao-Ming, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We investigate the behavior of higher-form symmetries at various quantum phase transitions. We consider discrete 1-form symmetries, which can be either part of the generalized concept "categorical symmetry" (labelled as $\tilde{Z}_N^{(1)}$) introduced recently, or an explicit $Z_N^{(1)}$ 1-form symmetry. We demonstrate that for many quantum phase transitions involving a $Z_N^{(1)}$ or $\tilde{Z}_N^{(1)}$ symmetry, the following expectation value $ \langle \left( \log O_\mathcal{C} \right)^2 \rangle$ takes the form $\langle \left( \log O_\mathcal{C} \right)^2 \rangle \sim - \frac{A}{\epsilon} P+ b \log P $, where $O_\mathcal{C}$ is an operator defined associated with loop $\mathcal{C}$ (or its interior $\mathcal{A}$), which reduces to the Wilson loop operator for cases with an explicit $Z_N^{(1)}$ 1-form symmetry. $P$ is the perimeter of $\mathcal{C}$, and the $b \log P$ term arises from the sharp corners of the loop $\mathcal{C}$, which is consistent with recent numerics on a particular example. $b$ is a universal microscopic-independent number, which in (2+1)d is related to the universal conductivity at the quantum phase transition. $b$ can be computed exactly for certain transitions using the dualities between (2+1)d conformal field theories developed in recent years. We also compute the "strange correlator" of $O_\mathcal{C}$: $S_{\mathcal{C}} = \langle 0 | O_\mathcal{C} | 1 \rangle / \langle 0 | 1 \rangle$ where $|0\rangle$ and $|1\rangle$ are many-body states with different topological nature., Comment: 9 pages, 2 figures

Published

2021

11. Categorical Symmetries at Criticality

Author

Wu, Xiao-Chuan, Ji, Wenjie, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We study the concept of "categorical symmetry" introduced recently, which in the most basic sense refers to a pair of dual symmetries, such as the Ising symmetries of the $1d$ quantum Ising model and its self-dual counterpart. In this manuscript we study discrete categorical symmetry at higher dimensional critical points and gapless phases. At these selected gapless states of matter, we can evaluate the behavior of categorical symmetries analytically. We analyze the categorical symmetry at the following examples of criticality: (1) Lifshit critical point of a $(2+1)d$ quantum Ising system; (2) $(3+1)d$ photon phase as an intermediate gapless phase between the topological order and the confined phase of 3d $Z_2$ quantum gauge theory; (3) $2d$ and $3d$ examples of systems with both categorical symmetries (either 0-form or 1-form categorical symmetries) and subsystem symmetries. We demonstrate that at some of these gapless states of matter the categorical symmetries have very different behavior from the nearby gapped phases., Comment: 11 pages, 2 figures

Published

2020

12. Physics of Symmetry Protected Topological phases involving Higher Symmetries and their Applications

Author

Jian, Chao-Ming, Wu, Xiao-Chuan, Xu, Yichen, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We discuss physical constructions, and the boundary properties of various symmetry protected topological phases that involve 1-form symmetries, from one spatial dimension (1d) to four spatial dimensions (4d). For example, the prototype 3d boundary state of 4d SPT states involving 1-form symmetries can be either a gapless photon phase (quantum electrodynamics) or gapped topological order enriched by 1-form symmetries, namely the loop excitations of these topological orders carry nontrivial 1-form symmetry charges. This study also serves the purpose of diagnosing anomaly of 3d states of matter. Connection between SPT states with 1-form symmetries and condensed matter systems such as quantum dimer models at one lower dimension will also be discussed. Whether a quantum dimer model can have a trivial gapped phase or not depends on the nature of its corresponding bulk state in one higher dimension., Comment: 10 pages, 1 figure

Published

2020

13. Continuous N\'{e}el-VBS Quantum Phase Transition in Non-Local one-dimensional systems with SO(3) Symmetry

Author

Jian, Chao-Ming, Xu, Yichen, Wu, Xiao-Chuan, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

One dimensional $(1d)$ interacting systems with local Hamiltonians can be studied with various well-developed analytical methods. Recently novel $1d$ physics was found numerically in systems with either spatially nonlocal interactions, or at the $1d$ boundary of $2d$ quantum critical points, and the critical fluctuation in the bulk also yields effective nonlocal interactions at the boundary. This work studies the edge states at the $1d$ boundary of $2d$ strongly interacting symmetry protected topological (SPT) states, when the bulk is driven to a disorder-order phase transition. We will take the $2d$ Affleck-Kennedy-Lieb-Tasaki (AKLT) state as an example, which is a SPT state protected by the SO(3) spin symmetry and spatial translation. We found that the original $(1+1)d$ boundary conformal field theory of the AKLT state is unstable due to coupling to the boundary avatar of the bulk quantum critical fluctuations. When the bulk is fixed at the quantum critical point, within the accuracy of our expansion method, we find that by tuning one parameter at the boundary, there is a generic direct transition between the long range antiferromagnetic N\'{e}el order and the valence bond solid (VBS) order. This transition is very similar to the N\'{e}el-VBS transition recently found in numerical simulation of a spin-1/2 chain with nonlocal spatial interactions. Connections between our analytical studies and recent numerical results concerning the edge states of the $2d$ AKLT-like state at a bulk quantum phase transition will also be discussed., Comment: 7 pages, 3 figures

Published

2020

14. Topological Edge and Interface states at Bulk disorder-to-order Quantum Critical Points

Author

Xu, Yichen, Wu, Xiao-Chuan, Jian, Chao-Ming, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We study the interplay between two nontrivial boundary effects: (1) the two dimensional ($2d$) edge states of three dimensional ($3d$) strongly interacting bosonic symmetry protected topological states, and (2) the boundary fluctuations of $3d$ bulk disorder-to-order phase transitions. We then generalize our study to $2d$ gapless states localized at an interface embedded in a $3d$ bulk, when the bulk undergoes a quantum phase transition. Our study is based on generic long wavelength descriptions of these systems and controlled analytic calculations. Our results are summarized as follows: ($i.$) The edge state of a prototype bosonic symmetry protected states can be driven to a new fixed point by coupling to the boundary fluctuations of a bulk quantum phase transition; ($ii.$) the states localized at a $2d$ interface of a $3d$ SU(N) quantum antiferromagnet may be driven to a new fixed point by coupling to the bulk quantum critical modes. Properties of the new fixed points identified are also studied., Comment: 8 pages, 7 figures

Published

2020

15. Boundary Criticality of Topological Quantum Phase Transitions in $2d$ systems

Author

Wu, Xiao-Chuan, Xu, Yichen, Geng, Hao, Jian, Chao-Ming, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We discuss the boundary critical behaviors of two dimensional quantum phase transitions with fractionalized degrees of freedom in the bulk, motivated by the fact that usually it is the $1d$ boundary that is exposed and can be conveniently probed in many experimental platforms. In particular, we mainly discuss boundary criticality of two examples: i. the quantum phase transition between a $2d$ $Z_2$ topological order and an ordered phase with spontaneous symmetry breaking; ii. the continuous quantum phase transition between metal and a particular type of Mott insulator (U(1) spin liquid). This theoretical study could be relevant to many purely $2d$ systems, where recent experiments have found correlated insulator, superconductor, and metal in the same phase diagram., Comment: 6 pages, 2 figures

Published

2020

16. Non-Landau Quantum Phase Transitions and nearly-Marginal non-Fermi Liquid

Author

Xu, Yichen, Geng, Hao, Wu, Xiao-Chuan, Jian, Chao-Ming, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Non-fermi liquid and unconventional quantum critical points (QCP) with strong fractionalization are two exceptional phenomena beyond the classic condensed matter doctrines, both of which could occur in strongly interacting quantum many-body systems. This work demonstrates that using a controlled method one can construct a non-Fermi liquid within a considerable energy window based on the unique physics of unconventional QCPs. We will focus on the "nearly-marginal non-Fermi liquid", defined as a state whose fermion self-energy scales as $\Sigma_f(i \omega) \sim i \mathrm{sgn}(\omega)|\omega|^{\alpha}$ with $\alpha$ close to $1$ in a considerable energy window. The nearly-marginal non-fermi liquid is obtained by coupling an electron fermi surface to unconventional QCPs that are beyond the Landau's paradigm. This mechanism relies on the observation that the anomalous dimension $\eta$ of the order parameter of these unconventional QCPs can be close to $1$, which is significantly larger than conventional Landau phase transitions, for example the Wilson-Fisher fixed points. The fact that $\eta \sim 1$ justifies a perturbative renormalization group calculation proposed earlier. Various candidate QCPs that meet this desired condition are proposed., Comment: 5 pages, 2 figures

Published

2019

17. Orbital Orders and non-Fermi Liquid in Moir\'{e} systems

Author

Xu, Yichen, Wu, Xiao-Chuan, Jian, Chao-Ming, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Motivated by recent observation of nematicity in Moir\'{e} systems, we study three different orbital orders that potentially can happen in Moir\'{e} systems: (1) the nematic order; (2) the valley polarization; and (3) the "compass order". Each order parameter spontaneously breaks part of the spatial symmetries of the system. We explore physics caused by the quantum fluctuations close to the order-disorder transition of these order parameters. Especially, we recognize that the symmetry of the Moir\'{e} systems leads to a crucial difference of the effective theory describing the nematic order from the standard Hertz-Millis formalism. We demonstrate that this key difference may lead to a special non-Fermi liquid behavior near the order-disorder nematic transition, different from the standard non-Fermi liquid behavior usually expected when a Fermi surface is coupled to the critical fluctuations of orbital orders. We also discuss the interplay of the three order parameters and the possible rich phase diagram at finite temperature. Within the three orbital orders, the valley polarization and the "compass order" likely strongly compete with the superconductor., Comment: 7 pages, 3 figures

Published

2019

18. Interacting Valley Chern Insulator and its Topological Imprint on Moir\'{e} Superconductors

Author

Wu, Xiao-Chuan, Xu, Yichen, Jian, Chao-Ming, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

One salient feature of systems with Moir\'{e} superlattice is that, Chern number of "minibands" originating from each valley of the original graphene Brillouin zone becomes a well-defined quantized number because the miniband from each valley can be isolated from the rest of the spectrum due to the Moir\'{e} potential. Then a Moir\'{e} system with a well-defined valley Chern number can become a nonchiral topological insulator with $U(1) \times Z_3 $ symmetry and a $\mathbb{Z}$ classification at the free fermion level. Here we demonstrate that the strongly interacting nature of the Moir\'{e} system reduces the classification of the valley Chern insulator from $\mathbb{Z}$ to $\mathbb{Z}_3$, and it is topologically equivalent to a bosonic symmetry protected topological state made of local boson operators. We also demonstrate that, even if the system becomes a superconductor when doped away from the valley Chern insulator, the valley Chern insulator still leaves a topological imprint as the localized Majorana fermion zero mode in certain geometric configuration., Comment: 6 pages, 4 figures

Published

2019

19. Ferromagnetism and Spin-Valley liquid states in Moir\'{e} Correlated Insulators

Author

Wu, Xiao-Chuan, Keselman, Anna, Jian, Chao-Ming, Pawlak, Kelly Ann, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Motivated by the recent observation of evidences of ferromagnetism in correlated insulating states in systems with Moir\'{e} superlattices, we study a two-orbital quantum antiferromagnetic model on the triangular lattice, where the two orbitals physically correspond to the two valleys of the original graphene sheet. For simplicity this model has a SU(2)$^s$$\otimes$SU(2)$^v$ symmetry, where the two SU(2) symmetries correspond to the rotation within the spin and valley space respectively. Through analytical argument, Schwinger boson analysis and also DMRG simulation, we find that even though all the couplings in the Hamiltonian are antiferromagnetic, there is still a region in the phase diagram with fully polarized ferromagnetic order. We argue that a Zeeman field can drive a metal-insulator transition in our picture, as was observed experimentally. We also construct spin liquids and topological ordered phases at various limits of this model. Then after doping this model with extra charge carriers, the system most likely becomes spin-triplet/valley-singlet $d+id$ topological superconductor as was predicted previously., Comment: 6 pages, 1 figure

Published

2019

20. Lattice models for Non-Fermi Liquids with Tunable Transport Scalings

Author

Wu, Xiao-Chuan, Jian, Chao-Ming, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

A variety of exotic non-fermi liquid (NFL) states have been observed in many condensed matter systems, with different scaling relations between transport coefficients and temperature. The "standard" approach to studying these NFLs is by coupling a Fermi liquid to quantum critical fluctuations, which potentially can drive the system into a NFL. In this work we seek for an alternative understanding of these various NFLs in a unified framework. We first construct two "elementary" randomness-free models with four-fermion interactions only, whose many properties can be analyzed exactly in certain limit just like the Sachdev-Ye-Kitaev (SYK) model. The most important new feature of our models is that, the fermion scaling dimension in the conformal invariant solution in the infrared limit is tunable by charge density. Then based on these elementary models, we propose two versions of lattice models with four fermion interactions which give us non-fermi liquid behaviors with DC resistivity scaling $\varrho \sim T^\alpha$ in a finite temperature window, and $\alpha \in [1, 2)$ depends on the fermion density in the model, which is a rather universal feature observed in many experimental systems., Comment: 13 pages, 2 figures

Published

2019

21. Coupled Wire description of the Correlated Physics in Twisted Bilayer Graphene

Author

Wu, Xiao-Chuan, Jian, Chao-Ming, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Since the discovery of superconductivity and correlated insulator at fractional electron fillings in the twisted bilayer graphene, most theoretical efforts have been focused on describing this system in terms of an effective extended Hubbard model. However, it was recognized that an exact tight binding model on the Moir\'{e} superlattice which captures all the subtleties of the bands can be exceedingly complicated. Here we pursue an alternative coupled wire description of the system based on the observation that the lattice relaxation effect is strong at small twist angle, which substantially enlarges the AB and BA stacking domains. Under an out-of-plane electric field which can have multiple origins, the low energy physics of the system is dominated by interconnected wires with (approximately) gapless $1d$ conducting quantum valley hall domain wall states. We demonstrate that the Coulomb interaction likely renders the wires a $U(2)_2$ $(1+1)d$ conformal field theory with a tunable Luttinger parameter for the charge $U(1)$ sector. Spin triplet and singlet Cooper pair operator both have quasi-long range order in this CFT. The junction between the wires at the AA stacking islands can lead to either a two dimensional superconductor, or an insulator., Comment: 8 pages, 2 figures

Published

2018

22. Emergent Superconductivity in the weak Mott insulator phase of bilayer Graphene Moir\'e Superlattice

Author

Wu, Xiao-Chuan, Pawlak, Kelly Ann, Jian, Chao-Ming, and Xu, Cenke

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We propose a phenomenological understanding of the recently discovered weak Mott insulator in the moir\'e superlattice of twisted bilayer graphene, especially the emergent superconductivity at low temperature within the weak Mott insulator phase, namely while lowering temperature, the longitudinal resistivity first grows below temperature $T_m$, but then rapidly drops to zero at even lower temperature $T_c$. An emergent superconductor in an insulator phase is very unusual. Here we propose that this phenomenon is due to the pure two-dimensional nature of the bilayer graphene moir\'e superlattice. We also compare our results with other theories proposed so far., Comment: 5 pages 2 figures

Published

2018

23. Diffusive excitonic bands from frustrated triangular sublattice in a singlet-ground-state system

Author

Gao, Bin, primary, Chen, Tong, additional, Wu, Xiao-Chuan, additional, Flynn, Michael, additional, Duan, Chunruo, additional, Chen, Lebing, additional, Huang, Chien-Lung, additional, Liebman, Jesse, additional, Li, Shuyi, additional, Ye, Feng, additional, Stone, Matthew B., additional, Podlesnyak, Andrey, additional, Abernathy, Douglas L., additional, Adroja, Devashibhai T., additional, Duc Le, Manh, additional, Huang, Qingzhen, additional, Nevidomskyy, Andriy H., additional, Morosan, Emilia, additional, Balents, Leon, additional, and Dai, Pengcheng, additional

Published

2023

24. Dynamical phase transition in quantum neural networks with large depth

Author

Zhang, Bingzhi, Liu, Junyu, Wu, Xiao-Chuan, Jiang, Liang, Zhuang, Quntao, Zhang, Bingzhi, Liu, Junyu, Wu, Xiao-Chuan, Jiang, Liang, and Zhuang, Quntao

Abstract

Understanding the training dynamics of quantum neural networks is a fundamental task in quantum information science with wide impact in physics, chemistry and machine learning. In this work, we show that the late-time training dynamics of quantum neural networks can be described by the generalized Lotka-Volterra equations, which lead to a dynamical phase transition. When the targeted value of cost function crosses the minimum achievable value from above to below, the dynamics evolve from a frozen-kernel phase to a frozen-error phase, showing a duality between the quantum neural tangent kernel and the total error. In both phases, the convergence towards the fixed point is exponential, while at the critical point becomes polynomial. Via mapping the Hessian of the training dynamics to a Hamiltonian in the imaginary time, we reveal the nature of the phase transition to be second-order with the exponent $\nu=1$, where scale invariance and closing gap are observed at critical point. We also provide a non-perturbative analytical theory to explain the phase transition via a restricted Haar ensemble at late time, when the output state approaches the steady state. The theory findings are verified experimentally on IBM quantum devices., Comment: 11+35 pages, comments are welcomed

Published

2023

25. Interaction-Driven Metal-Insulator Transition with Charge Fractionalization

Author

Xu, Yichen, primary, Wu, Xiao-Chuan, additional, Ye, Mengxing, additional, Luo, Zhu-Xi, additional, Jian, Chao-Ming, additional, and Xu, Cenke, additional

Published

2022

26. Software Design Principles of Intelligent Evacuation Indication System

Author

Liu, Bo, Liu, Yu-bao, and Wu, Xiao-chuan

Published

2013

27. Universal features of higher-form symmetries at phase transitions

Author

Wu, Xiao-Chuan, primary, Jian, Chao-Ming, additional, and Xu, Cenke, additional

Published

2021

28. Continuous N\'{e}el-VBS quantum phase transition in non-local one-dimensional systems with SO(3) symmetry

Author

Jian, Chao-Ming, primary, Xu, Yichen, additional, Wu, Xiao-Chuan, additional, and Xu, Cenke, additional

Published

2021

29. LPS-Treated Podocytes Polarize Naive CD4+ T Cells into Th17 and Treg Cells

Author

Yuan, Da-Hai, primary, Jia, Yang, additional, Hassan, Omar Mohamud, additional, Xu, Li-Yun, additional, and Wu, Xiao-Chuan, additional

Published

2020

30. LPS-Treated Podocytes Polarize Naive CD4+ T Cells into Th17 and Treg Cells.

Author

Yuan, Da-Hai, Jia, Yang, Hassan, Omar Mohamud, Xu, Li-Yun, and Wu, Xiao-Chuan

Subjects

ANIMAL experimentation, ANTIGENS, CELL culture, CYTOKINES, DENDRITIC cells, EPITHELIAL cells, GENE expression, HISTOCOMPATIBILITY antigens, KIDNEY glomerulus, MICE, T cells, LIPOPOLYSACCHARIDES, IN vitro studies

Abstract

Aim. Our study is aimed at investigating whether Lipopolysaccharide- (LPS-) treated podocytes could polarize naive CD4+ T cells into different subsets in vitro. Materials and Methods. Podocytes and mouse bone marrow-derived dendritic cells (BMDCs) were first cultured with 25 μg/ml LPS for 6 hours, respectively. Then, naive CD4+ T cells were cocultured with the LPS-treated podocytes or BMDCs at a ratio of 1 : 1 or 1 : 1 : 1. After 48 hours, we collected the suspended cells and supernatant from all groups to measure T helper (Th)17 cells, regulatory T (Treg) cells, and cytokine concentration. Results. We observed the expression of CD80 and major histocompatibility complex class II molecule (MHC II) in podocytes but did not found the upregulation of them after treating podocytes with LPS. LPS-treated podocytes could induce naive CD4+ T cells to Th17 cells and Treg cells with a higher ratio of Th17/Treg than BMDCs. Possible interaction between podocytes and BMDCs may exist in the induction process of Th17 cells and Treg cells. Conclusion. Our study proved that CD80 and MHC II were constitutively expressed in podocytes but not upregulated by LPS. LPS-treated podocytes could polarize naive CD4+ T cells into Th17 and Treg cells and affect the Th17/Treg balance and may incline to cause a Th17 response. [ABSTRACT FROM AUTHOR]

Published

2020

31. Predictability of Urinary CD80 in the Relapse of Primary Nephrotic Syndrome

Author

Liao, Juan, primary, Wu, Xiao-Chuan, additional, Cheng, Qia, additional, Li, Can-Lin, additional, Yi, Zhu-Wen, additional, Cao, Yan, additional, and Shuai, Lan-Jun, additional

Published

2017

32. Etiology and outcomes of acute kidney injury in Chinese children: a prospective multicentre investigation

Author

Cao, Yan, primary, Yi, Zhu-Wen, additional, Zhang, Hui, additional, Dang, Xi-Qiang, additional, Wu, Xiao-Chuan, additional, and Huang, Ai-Wen, additional

Published

2013

33. [Risk factors and prognosis of pediatric silent lupus nephritis with class Ⅲ to Ⅴ].

Author

Shen T, He QN, Zhang Q, Cao Y, Dang XQ, Wu XC, and Li XY

Subjects

Humans, Female, Male, Child, Risk Factors, Retrospective Studies, Prognosis, Adolescent, Glomerular Filtration Rate, Child, Preschool, Lupus Nephritis, Complement C3 analysis

Abstract

Objectives: To study the risk factors and prognostic characteristics of pediatric silent lupus nephritis (SLN) with class Ⅲ to V., Methods: A retrospective study was conducted to collect clinical data from 30 children diagnosed with SLN at the Department of Pediatrics, Second Xiangya Hospital, Central South University, from May 2007 to April 2023. Based on renal pathological classification, the patients were divided into a class Ⅱ group (12 cases) and a class Ⅲ to Ⅴ group (18 cases). The risk factors for the occurrence of class Ⅲ to Ⅴ SLN were analyzed, and the prognostic characteristics were summarized., Results: Among the 30 SLN patients, the median follow-up time was 61.50 months. There were no statistically significant differences in the proportions of patients who discontinued glucocorticoids or achieved low disease activity status, nor in the annual decline rate of estimated glomerular filtration rate (eGFR) between the class Ⅱ and class Ⅲ to V groups ( P >0.05). However, three patients in the class Ⅱ group progressed to stage 1 chronic kidney disease (CKD), while eight patients in the class III to V group reached stage 1 CKD, and four patients reached stage 2 CKD. Among the 26 female SLN patients, serum complement C3 levels in the class III to V group were lower than those in the class Ⅱ group ( P <0.05). Serum C3 levels in SLN patients, as well as in female SLN patients, were negatively correlated with the fluorescence intensity of IgA, IgG, and C3 immune complexes in the kidneys ( P <0.05). Additionally, serum C3 levels in female SLN patients were negatively correlated with the renal pathological activity index ( P <0.05). Binary logistic regression analysis indicated that being female and having low serum complement C3 levels were risk factors for the occurrence of class Ⅲ to V SLN in children ( P <0.05)., Conclusions: Class Ⅲ to V SLN is not uncommon among SLN children, and there remains a risk of long-term renal function progression. Being female and having low serum complement C3 levels are identified as risk factors for class Ⅲ to V SLN in children.

Published

2024

34. [Correlation of anti-C1q antibodies with active systemic lupus erythematosus and lupus nephritis in children].

Author

Li YZ, Yang JR, Zhang YD, Cao Y, Li XY, Shuai LJ, Wang Y, Shen T, and Wu XC

Subjects

Humans, Female, Child, Male, Retrospective Studies, Adolescent, Autoantibodies blood, Child, Preschool, Antibodies, Antinuclear blood, Antibodies, Antinuclear immunology, Complement C1q immunology, Lupus Nephritis immunology, Lupus Nephritis blood, Lupus Erythematosus, Systemic immunology

Abstract

Objectives: To study the correlation of anti-C1q antibodies with active systemic lupus erythematosus (SLE) and lupus nephritis (LN) in children, as well as their diagnostic value for active SLE and LN., Methods: A retrospective selection of 90 hospitalized children with SLE at the Children's Medical Center of Second Xiangya Hospital, Central South University from January 2016 to March 2019 as the SLE group, all of whom were tested for anti-C1q antibodies. A control group was formed by collecting 70 hospitalized children with other autoimmune diseases (OAD) during the same period. The differences in anti-C1q antibody levels were compared between two groups.The correlation of anti-C1q antibodies with various indicators of SLE and LN was analyzed, and the diagnostic value of anti-C1q in SLE and LN was evaluated., Results: The serum levels of anti-C1q antibodies in the SLE group were higher than those in the OAD group ( P <0.05). The SLE disease activity index score was positively correlated with anti-C1q antibodies ( r s =0.371, P <0.001) and positively correlated with anti-double-stranded DNA antibodies ( r s =0.370, P <0.001). The sensitivity and specificity of anti-C1q antibodies for diagnosing active SLE were 89.90% and 53.90%, respectively, with an area under the curve of 0.720 ( P <0.05) and a critical value of 5.45 U/mL. The sensitivity and specificity of anti-C1q antibody levels for diagnosing active LN were 58.50% and 85.00%, respectively, with an area under the curve of 0.675 ( P <0.05) and a critical value of 22.05 U/mL., Conclusions: Anti-C1q antibodies can serve as non-invasive biomarkers for evaluating the activity of SLE or predicting the activity of LN in children.

Published

2024

35. [Clinical characteristics of children with anti-neutrophil cytoplasmic antibody-associated vasculitis].

Author

Liu JQ, Li YZ, Shuai LJ, Cao Y, Li XY, Wang Y, Shen T, Mo SH, He XJ, and Wu XC

Subjects

Humans, Female, Male, Child, Retrospective Studies, Adolescent, Child, Preschool, Renal Insufficiency, Chronic etiology, Anti-Neutrophil Cytoplasmic Antibody-Associated Vasculitis complications

Abstract

Objectives: To study the clinical characteristics of children with anti-neutrophil cytoplasmic antibody (ANCA)-associated vasculitis (AAV)., Methods: A retrospective analysis was conducted on the clinical data of 25 children diagnosed with AAV at the Second Xiangya Hospital of Central South University from January 2010 to June 2022., Results: Among the AAV children, there were 5 males and 20 females, with a median age of onset of 11.0 years. Involvement of the urinary system was seen in 18 cases (72%); respiratory system involvement in 10 cases (40%); skin involvement in 6 cases (24%); eye, ear, and nose involvement in 5 cases (20%); joint involvement in 4 cases (16%); digestive system involvement in 2 cases (8%). Eleven cases underwent kidney biopsy, with 5 cases (46%) showing focal type, 2 cases (18%) showing crescentic type, 2 cases (18%) showing mixed type, and 2 cases (18%) showing sclerotic type. Immune complex deposits were present in 5 cases (45%). Seven cases reached chronic kidney disease (CKD) stage V, with 2 cases resulting in death. Two cases underwent kidney transplantation. At the end of the follow-up period, 2 cases were at CKD stage II, and 1 case was at CKD stage III. Of the 16 cases of microscopic polyangiitis (MPA) group, 13 (81%) involved the urinary system. Of the 9 cases of granulomatosis with polyangiitis (GPA), 6 cases (66%) had sinusitis. Serum creatinine and uric acid levels were higher in the MPA group than in the GPA group ( P <0.05), while red blood cell count and glomerular filtration rate were lower in the MPA group ( P <0.05)., Conclusions: AAV is more common in school-age female children, with MPA being the most common clinical subtype. The onset of AAV in children is mainly characterized by renal involvement, followed by respiratory system involvement. The renal pathology often presents as focal type with possible immune complex deposits. Children with MPA often have renal involvement, while those with GPA commonly have sinusitis. The prognosis of children with AAV is poor, often accompanied by renal insufficiency.

Published

2024

36. [Research progress in systemic lupus erythematosus from 2021 to 2022].

Author

Li YZ and Wu XC

Subjects

Humans, Proteomics, Lupus Erythematosus, Systemic diagnosis, Lupus Erythematosus, Systemic therapy

Abstract

Systemic lupus erythematosus (SLE) is an autoimmune disease that affects multiple organ systems, presenting a complex and diverse clinical manifestation. The heterogeneous treatment response and prognosis of SLE pose significant challenges to its diagnosis, classification, and homogeneous treatment. The emergence of new technologies and fields, such as synthetic biology, genomics, and proteomics, has contributed to a deeper exploration of the pathogenesis and biomarkers of SLE, facilitating precision diagnosis and treatment. This review summarizes the latest research data and achievements in SLE for the years 2021-2022, providing an overview and summary of relevant studies conducted in the past two years.

Published

2023

37. LPS-Treated Podocytes Polarize Naive CD4 + T Cells into Th17 and Treg Cells.

Author

Yuan DH, Jia Y, Hassan OM, Xu LY, and Wu XC

Subjects

Animals, B7-1 Antigen metabolism, Cells, Cultured, Coculture Techniques, Cytokines metabolism, Histocompatibility Antigens Class II metabolism, Mice, CD4-Positive T-Lymphocytes cytology, CD4-Positive T-Lymphocytes drug effects, Lipopolysaccharides pharmacology, Podocytes cytology, Podocytes drug effects, T-Lymphocytes, Regulatory cytology, T-Lymphocytes, Regulatory drug effects, Th17 Cells cytology, Th17 Cells drug effects

Abstract

Aim: Our study is aimed at investigating whether Lipopolysaccharide- (LPS-) treated podocytes could polarize naive CD4 + T cells into different subsets in vitro., Materials and Methods: Podocytes and mouse bone marrow-derived dendritic cells (BMDCs) were first cultured with 25  μ g/ml LPS for 6 hours, respectively. Then, naive CD4 + T cells were cocultured with the LPS-treated podocytes or BMDCs at a ratio of 1 : 1 or 1 : 1 : 1. After 48 hours, we collected the suspended cells and supernatant from all groups to measure T helper (Th)17 cells, regulatory T (Treg) cells, and cytokine concentration., Results: We observed the expression of CD80 and major histocompatibility complex class II molecule (MHC II) in podocytes but did not found the upregulation of them after treating podocytes with LPS. LPS-treated podocytes could induce naive CD4 + T cells to Th17 cells and Treg cells with a higher ratio of Th17/Treg than BMDCs. Possible interaction between podocytes and BMDCs may exist in the induction process of Th17 cells and Treg cells., Conclusion: Our study proved that CD80 and MHC II were constitutively expressed in podocytes but not upregulated by LPS. LPS-treated podocytes could polarize naive CD4 + T cells into Th17 and Treg cells and affect the Th17/Treg balance and may incline to cause a Th17 response., Competing Interests: The authors declare that they have no conflicts of interest related to the contents of this article., (Copyright © 2020 Da-Hai Yuan et al.)

Published

2020

38. [Clinical and genetic characteristics of a young child with combined pituitary hormone deficiency type I caused by POU1F1 gene variation].

Author

Chen J, Zhang XX, Wu XC, and Li J

Subjects

Child, Preschool, Female, Humans, Mutation, Transcription Factor Pit-1, Transcription Factors, Hypopituitarism

Abstract

This paper reports the clinical and genetic characteristics of a case of combined pituitary hormone deficiency type I (CPHD1) caused by POU domain, class 1, transcription factor 1 (POU1F1) gene variation. A 2 years and 3 months old girl mainly presented with short stature, special facial features of prominent forehead, enophthalmos, and short mandible, loose skin, central hypothyroidism, complete growth hormone deficiency, and anterior pituitary hypoplasia. Gene analysis identified a novel heterozygous mutation, c.889C>T (p.R297W), in POU1F1 gene, and this locus of her parents was wild-type. This mutation was analyzed as a possible pathogenic variant according to the guidelines of the American College of Medical Genetics and Genomics, which has not been previously reported in the literature and conforms to the autosomal dominant inheritance. This child was diagnosed with CPHD1. Her height increased by 19.8 cm and showed a catch-up growth trend after one year of combined treatment with growth hormone and euthyrox. This study enriches the mutation spectrum of POU1F1 gene and has important significance for the diagnosis and classification of combined pituitary hormone deficiency.

Published

2019