Your search keyword '"Song ZD"' showing total 29 results

1. Raman scattering investigation of quasi-one-dimensional superconductor Ta$_{4}$Pd$_{3}$Te$_{16}$

Author

Song Zd, Guanghan Cao, Dongliang Chen, S. F. Wu, Pierre Richard, W.-L. Zhang, Hong Ding, Zhi-Peng Fang, and Wen-He Jiao

Subjects

Superconductivity, Coupling, Range (particle radiation), Materials science, Condensed matter physics, Strongly Correlated Electrons (cond-mat.str-el), Phonon, Condensed Matter - Superconductivity, FOS: Physical sciences, Condensed Matter Physics, Superconductivity (cond-mat.supr-con), symbols.namesake, Laser linewidth, Condensed Matter - Strongly Correlated Electrons, Condensed Matter::Superconductivity, symbols, General Materials Science, Quasi one dimensional, Raman spectroscopy, Raman scattering

Abstract

We have performed polarized Raman scattering measurements on the newly discovered superconductor Ta$_{4}$Pd$_{3}$Te$_{16}$ ($T_c = 4.6$ K). We observe twenty-eight out of thirty-three Raman active modes, with frequencies in good accordance with first-principles calculations. Although most of the phonons observed vary only slightly with temperature and do not exhibit any asymmetric profile that would suggest strong electron-phonon coupling, the linewidth of the A$_{g}$ phonon mode at 89.9 cm$^{-1}$ shows an unconventional increase with temperature decreasing, which is possibly due to a charge-density-wave transition or the emergence of charge-density-wave fluctuations below a temperature estimated to fall in the 140-200 K range., Comment: 6 pages, 4 figures, 1 table

Published

2015

2. MgTa2N3: A reference Dirac semimetal

Author

Wu, QS, Piveteau, C, Song, ZD, and Yazyev, OV

3. The long-term intake of milk fat does not significantly increase the blood lipid burden in normal and high-fat diet-fed mice.

Author

Ren GX, He L, Liu YX, Fei YK, Liu XF, Lu QY, Chen X, Song ZD, and Wang JQ

Abstract

After 10 weeks of feeding C57BL/6J mice with a normal diet (ND) or a high-fat diet (HFD), a 7-week intervention with milk fat and whole milk was conducted to assess their long-term effects on host blood lipid levels. The results showed that milk fat and whole milk did not significantly elevate low-density lipoprotein cholesterol (LDL-C) in either ND- or HFD-fed mice. In ND mice, milk fat and whole milk improved gut microbiota diversity and Amplicon Sequence Variants. Key bacterial genera, such as Blautia , Romboutsia , and Prevotellaceae_NK3B31_group , were identified as bidirectional regulators of LDL-C and high-density lipoprotein cholesterol (HDL-C). Six unique metabolites were also linked to LDL-C and HDL-C regulation. Furthermore, an optimized machine learning model accurately predicted LDL-C ( R ² = 0.96) and HDL-C ( R ² = 0.89) based on gut microbiota data, with 80% of the top predictive features being gut metabolites influenced by milk fat and whole milk. These findings indicate that the long-term intake of milk fat does not significantly increase the blood lipid burden, and machine learning algorithms based on gut microbiota and metabolites offer novel insights for early lipid assessment and personalized nutrition strategies., Competing Interests: The authors declare no conflicts of interest., (© 2024 The Author(s). iMeta published by John Wiley & Sons Australia, Ltd on behalf of iMeta Science.)

Published

2024

4. Molecular Pairing in Twisted Bilayer Graphene Superconductivity.

Author

Wang YJ, Zhou GD, Peng SY, Lian B, and Song ZD

Abstract

We propose a theory for how the weak phonon-mediated interaction (J_{A}=1-4  meV) wins over the prohibitive Coulomb repulsion (U=30-60  meV) and leads to a superconductor in magic-angle twisted bilayer graphene (MATBG). We find the pairing mechanism akin to that in the A_{3}C_{60} family of molecular superconductors: Each AA stacking region of MATBG resembles a C_{60} molecule, in that optical phonons can dynamically lift the degeneracy of the moiré orbitals, in analogy to the dynamical Jahn-Teller effect. Such induced J_{A} has the form of an intervalley anti-Hund's coupling and is less suppressed than U by the Kondo screening near a Mott insulator. Additionally, we also considered an intraorbital Hund's coupling J_{H} that originates from the on-site repulsion of a carbon atom. Under a reasonable approximation of the realistic model, we prove that the renormalized local interaction between quasiparticles has a pairing (negative) channel in a doped correlated insulator at ν=±(2+δν), albeit the bare interaction is positive definite. The proof is nonperturbative and based on exact asymptotic behaviors of the vertex function imposed by Ward identities. Existence of an optimal U for superconductivity is predicted. In a large area of the parameter space of J_{A}, J_{H}, the ground state is found to have a nematic d-wave singlet pairing, which, however, can lead to a p-wave-like nodal structure due to the Berry's phase on Fermi surfaces (or Euler obstruction).

Published

2024

5. Catalog of topological phonon materials.

Author

Xu Y, Vergniory MG, Ma DS, Mañes JL, Song ZD, Bernevig BA, Regnault N, and Elcoro L

Abstract

Phonons play a crucial role in many properties of solid-state systems, and it is expected that topological phonons may lead to rich and unconventional physics. On the basis of the existing phonon materials databases, we have compiled a catalog of topological phonon bands for more than 10,000 three-dimensional crystalline materials. Using topological quantum chemistry, we calculated the band representations, compatibility relations, and band topologies of each isolated set of phonon bands for the materials in the phonon databases. Additionally, we calculated the real-space invariants for all the topologically trivial bands and classified them as atomic or obstructed atomic bands. We have selected more than 1000 "ideal" nontrivial phonon materials to motivate future experiments. The datasets were used to build the Topological Phonon Database.

Published

2024

6. Author Correction: Interacting topological quantum chemistry in 2D with many-body real space invariants.

Author

Herzog-Arbeitman J, Bernevig BA, and Song ZD

Published

2024

7. Anderson critical metal phase in trivial states protected by average magnetic crystalline symmetry.

Author

Wang FJ, Xiao ZY, Queiroz R, Bernevig BA, Stern A, and Song ZD

Abstract

Transitions between distinct obstructed atomic insulators (OAIs) protected by crystalline symmetries, where electrons form molecular orbitals centering away from the atom positions, must go through an intermediate metallic phase. In this work, we find that the intermediate metals will become a scale-invariant critical metal phase (CMP) under certain types of quenched disorder that respect the magnetic crystalline symmetries on average. We explicitly construct models respecting average C 2z T, m, and C 4z T and show their scale-invariance under chemical potential disorder by the finite-size scaling method. Conventional theories, such as weak anti-localization and topological phase transition, cannot explain the underlying mechanism. A quantitative mapping between lattice and network models shows that the CMP can be understood through a semi-classical percolation problem. Ultimately, we systematically classify all the OAI transitions protected by (magnetic) groups P m , P 2 ' , P 4 ' , and P 6 ' with and without spin-orbit coupling, most of which can support CMP., (© 2024. The Author(s).)

Published

2024

8. Interacting topological quantum chemistry in 2D with many-body real space invariants.

Author

Herzog-Arbeitman J, Bernevig BA, and Song ZD

Abstract

The topological phases of non-interacting fermions have been classified by their symmetries, culminating in a modern electronic band theory where wavefunction topology can be obtained from momentum space. Recently, Real Space Invariants (RSIs) have provided a spatially local description of the global momentum space indices. The present work generalizes this real space classification to interacting 2D states. We construct many-body local RSIs as the quantum numbers of a set of symmetry operators on open boundaries, but which are independent of the choice of boundary. Using the U(1) particle number, they yield many-body fragile topological indices, which we use to identify which single-particle fragile states are many-body topological or trivial at weak coupling. To this end, we construct an exactly solvable Hamiltonian with single-particle fragile topology that is adiabatically connected to a trivial state through strong coupling. We then define global many-body RSIs on periodic boundary conditions. They reduce to Chern numbers in the band theory limit, but also identify strongly correlated stable topological phases with no single-particle counterpart. Finally, we show that the many-body local RSIs appear as quantized coefficients of Wen-Zee terms in the topological quantum field theory describing the phase., (© 2024. The Author(s).)

Published

2024

9. Hofstadter Topology with Real Space Invariants and Reentrant Projective Symmetries.

Author

Herzog-Arbeitman J, Song ZD, Elcoro L, and Bernevig BA

Abstract

Adding magnetic flux to a band structure breaks Bloch's theorem by realizing a projective representation of the translation group. The resulting Hofstadter spectrum encodes the nonperturbative response of the bands to flux. Depending on their topology, adding flux can enforce a bulk gap closing (a Hofstadter semimetal) or boundary state pumping (a Hofstadter topological insulator). In this Letter, we present a real space classification of these Hofstadter phases. We give topological indices in terms of symmetry-protected real space invariants, which reveal the bulk and boundary responses of fragile topological states to flux. In fact, we find that the flux periodicity in tight-binding models causes the symmetries which are broken by the magnetic field to reenter at strong flux where they form projective point group representations. We completely classify the reentrant projective point groups and find that the Schur multipliers which define them are Arahanov-Bohm phases calculated along the bonds of the crystal. We find that a nontrivial Schur multiplier is enough to predict and protect the Hofstadter response with only zero-flux topology.

Published

2023

10. Magic-Angle Twisted Bilayer Graphene as a Topological Heavy Fermion Problem.

Author

Song ZD and Bernevig BA

Abstract

Magic-angle (θ=1.05°) twisted bilayer graphene (MATBG) has shown two seemingly contradictory characters: the localization and quantum-dot-like behavior in STM experiments, and delocalization in transport experiments. We construct a model, which naturally captures the two aspects, from the Bistritzer-MacDonald (BM) model in a first principle spirit. A set of local flat-band orbitals (f) centered at the AA-stacking regions are responsible to the localization. A set of extended topological semimetallic conduction bands (c), which are at small energetic separation from the local orbitals, are responsible to the delocalization and transport. The topological flat bands of the BM model appear as a result of the hybridization of f and c electrons. This model then provides a new perspective for the strong correlation physics, which is now described as strongly correlated f electrons coupled to nearly free c electrons-we hence name our model as the topological heavy fermion model. Using this model, we obtain the U(4) and U(4)×U(4) symmetries of Refs. [1-5] as well as the correlated insulator phases and their energies. Simple rules for the ground states and their Chern numbers are derived. Moreover, features such as the large dispersion of the charge ±1 excitations [2,6,7], and the minima of the charge gap at the Γ_{M} point can now, for the first time, be understood both qualitatively and quantitatively in a simple physical picture. Our mapping opens the prospect of using heavy-fermion physics machinery to the superconducting physics of MATBG.

Published

2022

11. Author Correction: Catalogue of flat-band stoichiometric materials.

Author

Regnault N, Xu Y, Li MR, Ma DS, Jovanovic M, Yazdani A, Parkin SSP, Felser C, Schoop LM, Ong NP, Cava RJ, Elcoro L, Song ZD, and Bernevig BA

Published

2022

12. The Association Between the Albumin and Viral Negative Conversion Rate in Patients Infected with Novel Coronavirus Disease 2019 (COVID-19).

Author

Lang LW, Zhu ZZ, Xu Z, Zhu SW, Meng P, Wang HY, Song ZD, Wang Y, and Bi JF

Abstract

Purpose: The novel coronavirus disease 2019 (COVID-19) epidemic is the severe global pandemic with large numbers of infected cases and deaths in recent decades. The previous studies were all about the influence of albumin (ALB) for the severity and mortality of in-patients infected with COVID-19. But few studies exist about the influence factors to achieve viral negative conversion. Therefore, this study conducted an exploratory study to investigate the effect of albumin on negative conversion rate., Methods: Among the 190 hospitalized patients with moderate COVID-19 who had a course of disease longer than 30 days, 102 achieved viral negative conversion in 30-45 days and 88 not after 45 days. Taking other variables as concomitant variable, Cox proportional hazard regression model was applied to explore the influence of albumin to negative conversion rate under various factors., Results: By comparing patients who could and could not achieve the finally viral negative conversion, a possible nonlinear relationship between the continuous variables and clinical outcomes was examined by a restricted cubic spline regression model. An association was found between albumin levels and hazard ratio of viral negative conversion rate (P = 0.027). The increase of albumin was accompanied with decreases of hazard ratio of viral negative conversion rate (the value of albumin <38 g/L). But when the value of albumin was higher than 38 g/L, the hazard ratio of viral negative conversion rate approached 1, it means that albumin is not a risk factor for the viral negative conversion rate of COVID-19 disease., Conclusion: For patients with COVID-19, albumin is a common and observed laboratory parameter. It is associated with final viral negative conversion rate although its underlying mechanism and relationship with the viral negative conversion rate still need to be clarified., Competing Interests: The authors report no conflicts of interest in this work., (© 2022 Lang et al.)

Published

2022

13. Catalogue of flat-band stoichiometric materials.

Author

Regnault N, Xu Y, Li MR, Ma DS, Jovanovic M, Yazdani A, Parkin SSP, Felser C, Schoop LM, Ong NP, Cava RJ, Elcoro L, Song ZD, and Bernevig BA

Abstract

Topological electronic flattened bands near or at the Fermi level are a promising route towards unconventional superconductivity and correlated insulating states. However, the related experiments are mostly limited to engineered materials, such as moiré systems 1-3 . Here we present a catalogue of the naturally occuring three-dimensional stoichiometric materials with flat bands around the Fermi level. We consider 55,206 materials from the Inorganic Crystal Structure Database catalogued using the Topological Quantum Chemistry website 4,5 , which provides their structural parameters, space group, band structure, density of states and topological characterization. We combine several direct signatures and properties of band flatness with a high-throughput analysis of all crystal structures. In particular, we identify materials hosting line-graph or bipartite sublattices-in either two or three dimensions-that probably lead to flat bands. From this trove of information, we create the Materials Flatband Database website, a powerful search engine for future theoretical and experimental studies. We use the database to extract a curated list of 2,379 high-quality flat-band materials, from which we identify 345 promising candidates that potentially host flat bands with charge centres that are not strongly localized on the atomic sites. We showcase five representative materials and provide a theoretical explanation for the origin of their flat bands close to the Fermi energy using the S-matrix method introduced in a parallel work 6 ., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

14. Dynamical symmetry indicators for Floquet crystals.

Author

Yu J, Zhang RX, and Song ZD

Abstract

Various exotic topological phases of Floquet systems have been shown to arise from crystalline symmetries. Yet, a general theory for Floquet topology that is applicable to all crystalline symmetry groups is still in need. In this work, we propose such a theory for (effectively) non-interacting Floquet crystals. We first introduce quotient winding data to classify the dynamics of the Floquet crystals with equivalent symmetry data, and then construct dynamical symmetry indicators (DSIs) to sufficiently indicate the inherently dynamical Floquet crystals. The DSI and quotient winding data, as well as the symmetry data, are all computationally efficient since they only involve a small number of Bloch momenta. We demonstrate the high efficiency by computing all elementary DSI sets for all spinless and spinful plane groups using the mathematical theory of monoid, and find a large number of different nontrivial classifications, which contain both first-order and higher-order 2+1D anomalous Floquet topological phases. Using the framework, we further find a new 3+1D anomalous Floquet second-order topological insulator (AFSOTI) phase with anomalous chiral hinge modes., (© 2021. The Author(s).)

Published

2021

15. Efficient Method for Prediction of Metastable or Ground Multipolar Ordered States and Its Application in Monolayer α-RuX&#95;{3} (X=Cl, I).

Author

Qiu WX, Zou JY, Luo AY, Cui ZH, Song ZD, Gao JH, Wang YL, and Xu G

Abstract

Exotic high-rank multipolar order parameters have been found to be unexpectedly active in more and more correlated materials in recent years. Such multipoles are usually dubbed "hidden orders" since they are insensitive to common experimental probes. Theoretically, it is also difficult to predict multipolar orders via ab initio calculations in real materials. Here, we present an efficient method to predict possible multipoles in materials based on linear response theory under random phase approximation. Using this method, we successfully predict two pure metastable magnetic octupolar states in monolayer α-RuCl&#95;{3}, which is confirmed by self-consistent unrestricted Hartree-Fock calculations. We then demonstrate that these octupolar states can be stabilized in monolayer α-RuI&#95;{3}, one of which becomes the octupolar ground state. Furthermore, we also predict a fingerprint of an orthogonal magnetization pattern produced by the octupole moment that can be easily detected by experiment. The method and the example presented in this Letter serve as a guide for searching multipolar order parameters in other correlated materials.

Published

2021

16. Delocalization Transition of a Disordered Axion Insulator.

Author

Song ZD, Lian B, Queiroz R, Ilan R, Bernevig BA, and Stern A

Abstract

The axion insulator is a higher-order topological insulator protected by inversion symmetry. We show that, under quenched disorder respecting inversion symmetry on average, the topology of the axion insulator stays robust, and an intermediate metallic phase in which states are delocalized is unavoidable at the transition from an axion insulator to a trivial insulator. We derive this conclusion from general arguments, from classical percolation theory, and from the numerical study of a 3D quantum network model simulating a disordered axion insulator through a layer construction. We find the localization length critical exponent near the delocalization transition to be ν=1.42±0.12. We further show that this delocalization transition is stable even to weak breaking of the average inversion symmetry, up to a critical strength. We also quantitatively map our quantum network model to an effective Hamiltonian and we find its low-energy k·p expansion.

Published

2021

17. Fragile Topology and Flat-Band Superconductivity in the Strong-Coupling Regime.

Author

Peri V, Song ZD, Bernevig BA, and Huber SD

Abstract

In flat bands, superconductivity can lead to surprising transport effects. The superfluid "mobility", in the form of the superfluid weight D&#95;{s}, does not draw from the curvature of the band but has a purely band-geometric origin. In a mean-field description, a nonzero Chern number or fragile topology sets a lower bound for D&#95;{s}, which, via the Berezinskii-Kosterlitz-Thouless mechanism, might explain the relatively high superconducting transition temperature measured in magic-angle twisted bilayer graphene (MATBG). For fragile topology, relevant for the bilayer system, the fate of this bound for finite temperature and beyond the mean-field approximation remained, however, unclear. Here, we numerically use exact Monte Carlo simulations to study an attractive Hubbard model in flat bands with topological properties akin to those of MATBG. We find a superconducting phase transition with a critical temperature that scales linearly with the interaction strength. Then, we investigate the robustness of the superconducting state to the addition of trivial bands that may or may not trivialize the fragile topology. Our results substantiate the validity of the topological bound beyond the mean-field regime and further stress the importance of fragile topology for flat-band superconductivity.

Published

2021

18. Hofstadter Topology: Noncrystalline Topological Materials at High Flux.

Author

Herzog-Arbeitman J, Song ZD, Regnault N, and Bernevig BA

Abstract

The Hofstadter problem is the lattice analog of the quantum Hall effect and is the paradigmatic example of topology induced by an applied magnetic field. Conventionally, the Hofstadter problem involves adding ∼10^{4}  T magnetic fields to a trivial band structure. In this Letter, we show that when a magnetic field is added to an initially topological band structure, a wealth of possible phases emerges. Remarkably, we find topological phases that cannot be realized in any crystalline insulators. We prove that threading magnetic flux through a Hamiltonian with a nonzero Chern number or mirror Chern number enforces a phase transition at fixed filling and that a 2D Hamiltonian with a nontrivial Kane-Mele invariant can be classified as a 3D topological insulator (TI) or 3D weak TI phase in periodic flux. We then study fragile topology protected by the product of twofold rotation and time reversal and show that there exists a higher order TI phase where corner modes are pumped by flux. We show that a model of twisted bilayer graphene realizes this phase. Our results rely primarily on the magnetic translation group that exists at rational values of the flux. The advent of Moiré lattices renders our work relevant experimentally. Due to the enlarged Moiré unit cell, it is possible for laboratory-strength fields to reach one flux per plaquette and allow access to our proposed Hofstadter topological phase.

Published

2020

19. High-throughput calculations of magnetic topological materials.

Author

Xu Y, Elcoro L, Song ZD, Wieder BJ, Vergniory MG, Regnault N, Chen Y, Felser C, and Bernevig BA

Abstract

The discoveries of intrinsically magnetic topological materials, including semimetals with a large anomalous Hall effect and axion insulators 1-3 , have directed fundamental research in solid-state materials. Topological quantum chemistry 4 has enabled the understanding of and the search for paramagnetic topological materials 5,6 . Using magnetic topological indices obtained from magnetic topological quantum chemistry (MTQC) 7 , here we perform a high-throughput search for magnetic topological materials based on first-principles calculations. We use as our starting point the Magnetic Materials Database on the Bilbao Crystallographic Server, which contains more than 549 magnetic compounds with magnetic structures deduced from neutron-scattering experiments, and identify 130 enforced semimetals (for which the band crossings are implied by symmetry eigenvalues), and topological insulators. For each compound, we perform complete electronic structure calculations, which include complete topological phase diagrams using different values of the Hubbard potential. Using a custom code to find the magnetic co-representations of all bands in all magnetic space groups, we generate data to be fed into the algorithm of MTQC to determine the topology of each magnetic material. Several of these materials display previously unknown topological phases, including symmetry-indicated magnetic semimetals, three-dimensional anomalous Hall insulators and higher-order magnetic semimetals. We analyse topological trends in the materials under varying interactions: 60 per cent of the 130 topological materials have topologies sensitive to interactions, and the others have stable topologies under varying interactions. We provide a materials database for future experimental studies and open-source code for diagnosing topologies of magnetic materials.

Published

2020

20. Gapless Criterion for Crystals from Effective Axion Field.

Author

Yu J, Song ZD, and Liu CX

Abstract

Gapless criteria that can efficiently determine whether a crystal is gapless or not are particularly useful for identifying topological semimetals. In this work, we propose a sufficient gapless criterion for three-dimensional noninteracting crystals, based on the simplified expressions for the bulk average value of the static axion field. The brief logic is that two different simplified expressions give the same value in an insulator, and thus the gapless phase can be detected by the mismatch of them. We demonstrate the effectiveness of the gapless criterion in the magnetic systems with space groups 26 and 13, where mirror, glide, and inversion symmetries provide the simplified expressions. In particular, the gapless criterion can identify gapless phases that are missed by the symmetry-representation approach, as illustrated by space group 26. Our proposal serves as a guiding principle for future discovery of topological semimetals.

Published

2020

21. Silanol: a bifunctional group for peptide synthesis and late-stage functionalization.

Author

Hu QL, Hou KQ, Li J, Ge Y, Song ZD, Chan ASC, and Xiong XF

Abstract

Chemical modification of a specific amino acid residue on peptides represents an efficient strategy to improve their pharmacokinetics and facilitates the potential to achieve post-synthetic diversification of peptides. Herein, we reported the first Pd-catalyzed late-stage ortho -olefination of Tyr residues on peptides with high chemo- and site-selectivity, by employing the easily attached and removable silanol as a bifunctional protecting group and directing group. Up to hexapeptides with variation on amino acid sequences or locations of the Tyr residue and different olefins were compatible with this protocol, which enriched the chemical toolbox for late-stage modification via C(sp 2 )-H functionalization. Furthermore, the orthogonal protection strategies of Tyr were also developed and could be applied to SPPS., Competing Interests: The authors declare no conflict of interest., (This journal is © The Royal Society of Chemistry.)

Published

2020

22. Experimental characterization of fragile topology in an acoustic metamaterial.

Author

Peri V, Song ZD, Serra-Garcia M, Engeler P, Queiroz R, Huang X, Deng W, Liu Z, Bernevig BA, and Huber SD

Abstract

Symmetries crucially underlie the classification of topological phases of matter. Most materials, both natural as well as architectured, possess crystalline symmetries. Recent theoretical works unveiled that these crystalline symmetries can stabilize fragile Bloch bands that challenge our very notion of topology: Although answering to the most basic definition of topology, one can trivialize these bands through the addition of trivial Bloch bands. Here, we fully characterize the symmetry properties of the response of an acoustic metamaterial to establish the fragile nature of the low-lying Bloch bands. Additionally, we present a spectral signature in the form of spectral flow under twisted boundary conditions., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2020

23. Association of the Aldose Reductase-106TT Genotype with Increased Risk for Diabetic Retinopathy in the Chinese Han Population: An Updated Meta-Analysis.

Author

Song ZD, Tao Y, Han N, and Wu YZ

Subjects

Aldehyde Reductase metabolism, China epidemiology, Diabetic Retinopathy enzymology, Diabetic Retinopathy ethnology, Ethnicity genetics, Genotype, Humans, Incidence, Risk Factors, Aldehyde Reductase genetics, Diabetic Retinopathy genetics, Genetic Predisposition to Disease, Polymorphism, Genetic

Abstract

Purpose: A meta-analysis was conducted to assess the effects of the aldose reductase (ALR) C-106T polymorphism on the risk for development of diabetic retinopathy (DR) in the Chinese population., Materials and Methods: Relevant studies were identified using PubMed, Springer Link, Ovid, Chinese Wanfang Data Knowledge Service Platform, Chinese National Knowledge Infrastructure (CNKI), and Chinese Biology Medicine (CBM) through 21 March 2015. Pooled odds ratios (ORs) and 95% confidence intervals (CIs) were used to assess the strength of the associations., Results: This meta-analysis identified 11 studies, including 1386 DR cases, 1594 diabetes mellitus (DM) control cases, and 472 healthy control cases. In the overall analysis, a non-significant association between the ALR C(-106)T polymorphism and DR was found in the Chinese population. In subgroups stratified by ethnicity, significantly increased risks for DR in association with ALR C(-106)T variants were found in the Chinese Han population. When compared with healthy controls, we found the following associations: T versus C (OR, 1.63; 95%CI, 1.23-2.17), TT versus CC (OR, 2.04; 95%CI, 1.03-4.02), and TT + CT versus CC (OR, 1.82; 95%CI, 1.28-2.57)., Conclusions: Our meta-analysis showed that ALR C-106T variants appear to influence the risk for DR in Chinese Han persons. Studies with larger sample sizes and wider population spectra are warranted to verify this finding.

Published

2016

24. Raman scattering investigation of the quasi-one-dimensional superconductor Ta₄Pd₃Te₁₆.

Author

Chen D, Richard P, Song ZD, Zhang WL, Wu SF, Jiao WH, Fang Z, Cao GH, and Ding H

Abstract

We have performed polarized Raman scattering measurements on the newly discovered superconductor Ta4Pd3Te16 (T(c) = 4.6 K). We observe 28 out of 33 Raman active modes, with frequencies in good accordance with first-principles calculations. Although most of the phonons observed vary only slightly with temperature and do not exhibit any asymmetric profile that would suggest strong electron-phonon coupling, the linewidth of the A(g) phonon mode at 89.9 cm(-1) shows an unconventional increase with temperature decreasing, which is possibly due to a charge-density-wave transition or the emergence of charge-density-wave fluctuations below a temperature estimated to fall in the 140-200 K range.

Published

2015

25. Observation of Fermi-Arc Spin Texture in TaAs.

Author

Lv BQ, Muff S, Qian T, Song ZD, Nie SM, Xu N, Richard P, Matt CE, Plumb NC, Zhao LX, Chen GF, Fang Z, Dai X, Dil JH, Mesot J, Shi M, Weng HM, and Ding H

Abstract

We have investigated the spin texture of surface Fermi arcs in the recently discovered Weyl semimetal TaAs using spin- and angle-resolved photoemission spectroscopy. The experimental results demonstrate that the Fermi arcs are spin polarized. The measured spin texture fulfills the requirement of mirror and time-reversal symmetries and is well reproduced by our first-principles calculations, which gives strong evidence for the topologically nontrivial Weyl semimetal state in TaAs. The consistency between the experimental and calculated results further confirms the distribution of chirality of the Weyl nodes determined by first-principles calculations.

Published

2015

26. [Research on improving spectrum resolution based on electro-optic modulation Wollaston prism group].

Author

Li Y, Chen ZG, Li K, and Song ZD

Abstract

Under the condition of no substantial change in the crystal size of the optical interference device, in order to improve the static spectrum resolution of the spectrum analysis equipment, the optical interference system of electro-optic modulation was designed. Wollaston prism group was used on the basis of analysis of the methods for increasing scanning range of the optical path of the static interference system. In the meantime, crystal refractive index was modulated by electro-optic modulation technique, and the range of the optical path difference was derived. Finally, the synthesized optical path difference function and spectrum resolution of the system was given in a modulation cycle. Experiments used three Wollaston prisms with same size and structural angle to constitute Wollaston prism group, and the signal was modulated by type SGT-3 acousto-optic modulator devices. Experimental results show that the interference fringes image after eliminating redundant processing can be effectively fused. Modulated interference image has a little distortion, but meets the requirements to reduce the spectrum distribution function after linearity correction. The spectrum resolution increased nearly by an order of magnitude compared to the static interference with the same crystal size.

Published

2013

27. [Effect of cardiopulmonary bypass on the expression of survivin in neutrophils].

Author

Lin XZ, Gong M, Peng CB, Zhou CL, Cong HT, Wang Y, Song ZD, and Lu GT

Subjects

Adult, Apoptosis, Case-Control Studies, Female, Humans, Inhibitor of Apoptosis Proteins, Male, Middle Aged, Survivin, Cardiopulmonary Bypass, Microtubule-Associated Proteins metabolism, Neutrophils metabolism

Abstract

Objective: To investigate the effects of cardiopulmonary bypass on neutrophils apoptosis and the expression of survivin., Methods: Ten patients who scheduled for cardiac surgery under cardiopulmonary bypass were recruited as study group and 10 healthy volunteers as control. Blood samples were obtained before operation, at the end of surgery, and at 24 hours postoperatively. Neutrophils were isolated by density gradient centrifugation and its apoptosis were evaluated by fluorescent microscope and flow cytometry. The expression of survivin protein was examined by Western blotting analysis. Expression level of survivin mRNA was detected by RT-PCR., Results: The apoptotic rate of neutrophils decreased significantly at the end of surgery (P < 0.01), and was still lower at 24 hours postoperatively than before operation (P < 0.05). The expression ratios of survivin protein and mRNA were increased at the end of surgery (P < 0.01), and decreased gently at 24 hours postoperatively but was still higher than before operation (P < 0.05)., Conclusion: Cardiopulmonary bypass could inhibit neutrophils apoptosis and increase the expression of survivin. The decrease of neutrophils apoptosis was correlated with high expression of survivin.

Published

2010

28. [Foraging intensity of ants in Solenopsis invicta Buren (Hymenoptera: Formiciddae) invaded and un-invaded habitats].

Author

Wu BQ, Lu YY, Zeng L, Song ZD, and Liang GW

Subjects

Animals, Ants growth & development, China, Hymenoptera classification, Ants physiology, Appetitive Behavior physiology, Competitive Behavior physiology, Ecosystem, Hymenoptera physiology

Abstract

By the methods of bait (honey, peanut oil, sausage, and mealworm larvae) trap, this paper studied the searching time, recruitment time, and recruitment number of ants in 3 typical habitats invaded and un-invaded by red imported fire ant (Solenopsis invicta) in South China, and analyzed the effects of S. invicta invasion on the foraging intensity of native ants. In S. invicta invaded lawn, the searching time of ants for mealworm larvae and peanut oil was significantly shorter, compared with that in S. invicta un-invaded area. Less difference was observed in the searching time for the 4 baits between S. invicta invaded and un-invaded wasteland, but the recruitment time for peanut oil was significantly longer in invaded than in un-invaded area. The searching time and recruitment time of the ants for the 4 baits had less difference between the invaded and un-invaded litchi orchard. 30 min after setting bait traps, the recruitment number of S. invicta workers on peanut oil, mealworm larvae, and sausage in invaded lawn, and on peanut oil in invaded wasteland was larger than that of native ants, but no significant difference was found in the recruitment number of S. invicta workers and native ants on the baits in invaded litchi orchard.

Published

2009

29. [Value of multiplanar reconstruction of lumbar nerve roots on the same level by high resolution computed tomography in diagnosis of lumbar disc herniation and/or bulge].

Author

Lin JF, Liang YK, Zhang YQ, Jiang L, Zhao SC, Li XJ, Song ZD, Ge HQ, Wang JH, Wang ZY, Zuo YJ, and Zheng KH

Subjects

Adult, Aged, Female, Humans, Male, Middle Aged, Radiographic Image Interpretation, Computer-Assisted, Reproducibility of Results, Sensitivity and Specificity, Intervertebral Disc Displacement diagnosis, Lumbar Vertebrae, Spinal Nerve Roots diagnostic imaging, Tomography, Spiral Computed methods

Abstract

Objective: To explore value of multiplanar reconstruction of lumbar nerve roots on the same level by high resolution computed tomography (HRCT) in diagnosis of lumbar disc herniation and/or bulge (LDHB)., Methods: Thirty-one patients with manifestations of typical nerve root compression, such as lumbago and tenderness of percussion pain at the corresponding sites were scanned with 16-slice spiral CT and multiplanar reconstruction of lumbar nerve roots on the same level with the workshop ADW4.150, and were diagnosed as with LDHB with 50 segments. The diagnoses were confirmed by operation later., Results: This technique showed not only the existence of LDHB but also the signs of nerve root compression, including the touch of nerve roots with the LDHB (100%), translocation of nerve roots (96%), morphological change (94%), changes of diameter (92%), changes of direction (88%), changes of density (80%), increase of the angle between the dural sac and nerve root (76%), etc. Along with the prolonging of time, the nerve roots became thinner in all segments., Conclusion: Multiplanar reconstruction of lumbar nerve roots on the same level by high resolution computed tomography is valuable in the diagnosis of lumbar disc herniation and/or bulge.

Published

2007