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46 results on '"Zeng, K. Y."'

1. Incommensurate magnetic order in Sm$_3$BWO$_9$ with the distorted kagome lattice

Author

Zeng, K. Y., Song, F. Y., Ling, L. S., Tong, W., Li, Shiliang, Tian, Z. M., Ma, Long, and Pi, Li

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

We investigate the magnetic ground state of Sm$_3$BWO$_9$ with the distorted kagome lattice. A magnetic phase transition is identified at $T_N=0.75$ K from the temperature dependence of specific heat. From $^{11}$B nuclear magnetic resonance (NMR) measurements, an incommensurate magnetic order is shown by the double-horn type spectra under a $c$-axis magnetic field. While, absence of line splitting is observed for field oriented within the $ab$-plane, indicating the incommensurate modulation of the internal field strictly along $c$-axis. From the spin dynamics, the critical slowing down behavior is observed in the temperature dependence of $1/T_1$ with $\mu_0H\perp c$-axis, which is completely absent in that with $\mu_0H||c$-axis. Based on the local symmetry of $^{11}$B sites, we analyze the hyperfine coupling tensors and propose two constraints on the possible magnetic structure. The single ion anisotropy should play an important role in the determination of the contrasting ground states of Sm$_3$BWO$_9$ and Pr$_3$BWO$_9$., Comment: 7 pages, 5 figures

Published
2022
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2. Local evidence for collective spin excitations in the distorted kagome antiferromagnet Pr$_3$BWO$_9$

Author

Zeng, K. Y., Song, F. Y., Tian, Z. M., Chen, Qiao, Wang, Shun, Liu, Bo, Li, Shiliang, Ling, L. S., Tong, W., Ma, Long, and Pi, Li

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report the local probe investigation of a frustrated antiferromagnet Pr$_3$BWO$_9$ with the distorted kagome lattice. Absence of magnetic order or spin freezing is indicated by the spectral analysis down to 0.3 K and specific heat measurements down to 0.09 K. The Knight shifts show an upturn behavior with the sample cooling down, which is further suppressed by external field. For the spin dynamics, gapped spin excitation is observed from the temperature dependence of spin-lattice relaxation rates, with the gap size proportional to the applied magnetic field intensity. Comparatively, an unexpected sharp peak is observed in the nuclear spin-spin relaxation rate data at $T^*\sim 4-5$ K. These results indicate an unconventional persistent fluctuating paramagnetic ground state with antiferromagnetic collective spin excitations in the strongly frustrated spin system., Comment: 6 pages, 4 figures

Published
2021
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3. NMR study of the spin correlations in the $S=1$ armchair chain Ni$_2$NbBO$_6$

Author

Zeng, K. Y., Ma, Long, Xu, L. M., Tian, Z. M., Ling, L. S., and Pi, Li

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report our nuclear magnetic resonance (NMR) study on the structurally spin chain compound Ni$_2$NbBO$_6$ with complex magnetic coupling. The antiferromagnetic transition is monitored by the line splitting resulting from the staggered internal hyperfine field. The magnetic coupling configuration proposed by the first-principle density functional theory (DFT) is supported by our NMR spectral analysis. For the spin dynamics, a prominent peak at $T\sim35$ K well above the N\'{e}el temperature ($T_N\sim20$ K at $\mu_0H=10$ T) is observed from the spin-lattice relaxation data. As compared with the dc-susceptibility, this behavior indicates a antiferromagnetic coupling with the typical energy scale of $\sim3$ meV. Thus, the Ni$_2$NbBO$_6$ compound can be viewed as strongly ferromagnetically coupled armchair spin chains along the crystalline $b$-axis. These facts place strong constraints to the theoretical model for this compound., Comment: 6 pages, 4 figures

Published
2020
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4. Artificial two-dimensional polar metal by charge transfer to a ferroelectric insulator

Author

Zhou, W. X., Wu, H. J., Zhou, J., Zeng, S. W., Li, C. J., Li, M. S., Guo, R., Xiao, J. X., Huang, Z., Lv, W. M., Han, K., Yang, P., Li, C. G., Lim, Z. S., Wang, H., Zhang, Y., Chua, S. J., Zeng, K. Y., Venkatesan, T., Chen, J. S., Feng, Y. P., Pennycook, S. J., and Ariando, A.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons, Physics - Applied Physics
Abstract

Integrating multiple properties in a single system is crucial for the continuous developments in electronic devices. However, some physical properties are mutually exclusive in nature. Here, we report the coexistence of two seemingly mutually exclusive properties-polarity and two-dimensional conductivity-in ferroelectric Ba$_{0.2}$Sr$_{0.8}$TiO$_3$ thin films at the LaAlO$_3$/Ba$_{0.2}$Sr$_{0.8}$TiO$_3$ interface at room temperature. The polarity of a ~3.2 nm Ba$_{0.2}$Sr$_{0.8}$TiO$_3$ thin film is preserved with a two-dimensional mobile carrier density of ~0.05 electron per unit cell. We show that the electronic reconstruction resulting from the competition between the built-in electric field of LaAlO$_3$ and the polarization of Ba$_{0.2}$Sr$_{0.8}$TiO$_3$ is responsible for this unusual two-dimensional conducting polar phase. The general concept of exploiting mutually exclusive properties at oxide interfaces via electronic reconstruction may be applicable to other strongly-correlated oxide interfaces, thus opening windows to new functional nanoscale materials for applications in novel nanoelectronics., Comment: Main text: 25 pages, 4 figures Supplementary note: 19 pages, 11 figures

Published
2020
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5. NMR study of the spin excitations in the frustrated antiferromagnet Yb(BaBO$_3$)$_3$ with a triangular lattice

Author

Zeng, K. Y., Ma, Long, Gao, Y. X., Tian, Z. M., Ling, L. S., and Pi, Li

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

In this paper, we study the spin excitation properties of the frustrated triangular-lattice antiferromagnet Yb(BaBO$_3$)$_3$ with nuclear magnetic resonance. From the spectral analysis, neither magnetic ordering nor spin freezing is observed with temperature down to $T=0.26$ K, far below its Curie-Weiss temperature $|\theta_w|\sim2.3$ K. From the nuclear relaxation measurement, precise temperature-independent spin-lattice relaxation rates are observed at low temperatures under a weak magnetic field, indicating the gapless spin excitations. Further increasing the field intensity, we observe a spin excitation gap with the gap size proportional to the field intensity. These phenomena suggest a very unusual strongly correlated quantum disordered phase, and the implications for the quantum spin liquid state are further discussed., Comment: 6 pages, 6 figures. Supplemental materials available upon request

Published
2019
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6. Electric-field-induced strain-mediated magnetoelectric effect in CoFeB-MgO magnetic tunnel junctions

Author

Naik, V. B., Meng, H., Xiao, J. X., Liu, R. S., Kumar, A., Zeng, K. Y., Luo, P., and Yap, S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Magnetoelectric coupling between magnetic and electric dipoles is one of the cornerstones of modern physics towards developing the most energy-efficient magnetic data storage. Conventionally, magnetoelectric coupling is achieved in single-phase multiferroics or in magnetoelectric composite nanostructures consisting of ferromagnetic and ferroelectric/piezoelectric materials. Here, we demonstrate an electric-field-induced strain-mediated magnetoelectric effect in ultrathin CoFeB/MgO magnetic tunnel junction employing non-piezoelectric material, which is a vitally important structure for spintronic devices, by using dynamical magnetoelectric and piezoresponse force microscopy measurement techniques. We show that the applied electric-field induces strain in a few atomic layers of dielectric MgO which is transferred to magnetostrictive CoFeB layer, resulting in a magnetoelectric effect of magnitude up to 80.8 V cm-1 Oe-1 under -0.5 V. The demonstrated strain-mediated magnetoelectric effect with an electric field in magnetic tunnel junctions is a significant step towards exploring magnetoelectrically controlled spintronic devices for low-power and high density magnetic data storage applications.

Published
2013

19. Instability pathways of hydrogel microlenses under concentrated loadings.

Author

Zhang, X. X., Zeng, K. Y., Li, J., and Zhang, Y. W.

Subjects
*HYDROGELS, *LENSES, *BIFURCATION theory, *MECHANICAL loads, *DEFORMATION of surfaces, *MATHEMATICAL physics
Abstract

We investigate the mechanical instabilities of hydrogel microlenses triggered by concentrated loadings. Depending on hydrogel microlenses, geometries, and loading conditions, a series of nontrivial instability pathways is observed, including transitions of localized polyhedral faceted shapes with multifold vertices created by bifurcation, snapping through curvature inversion and large load drop, and wrinkling driven by combined in-plane stretching and compression. These pathways reveal the richness of the mechanical behavior of hydrogel microlenses and provide potential strategies to control the design and shape of complex hydrogel microlenses. [ABSTRACT FROM AUTHOR]

Published
2009
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21. Lithium Dendrite Growth Control Using Local Temperature Variation

Author

Li, J. Y., Christensen, J., Huber, J., Zeng, K. Y., Aryanfar, Asghar, Colussi, Agustín J., Hoffmann, Michael R., Li, J. Y., Christensen, J., Huber, J., Zeng, K. Y., Aryanfar, Asghar, Colussi, Agustín J., and Hoffmann, Michael R.

Abstract

We have quantified lithium dendrite growth in an optically accessible symmetric Li-metal cell, charged under imposed temperatures on the electrode surface. We have found that the dendrite length measure is reduced up to 43% upon increasing anodic temperature of about 50°C. We have deduced that imposing higher temperature on the electrode surface will augment the reduction rate relative to dendritic peaks and therefore lithium holes can draw near with the sharp deposited tips. We have addressed this mechanism via fundamentals of electrochemical transport.

Published
2014

24. Extended finite element method with edge-based strain smoothing (ESm-XFEM) for linear elastic crack growth

Author

Royal Academy of Engineering and of the Leverhulme Trust. Senior Research Fellowship entitled ‘‘Towards the next generation surgical simulators’’ [sponsor], EPSRC under grants EP/G069352/1 Advanced discretisation strategies for ‘‘atomistic’’ nano CMOS simulation [sponsor], EP/ G042705/1 Increased Reliability for Industrially Relevant Automatic Crack Growth Simulation with the eXtended Finite Element Method [sponsor], German Research Foundation (DFG) [sponsor], Chen, L., Rabczuk, T., Bordas, Stéphane, Liu, G. R., Zeng, K. Y., Kerfriden, P., Royal Academy of Engineering and of the Leverhulme Trust. Senior Research Fellowship entitled ‘‘Towards the next generation surgical simulators’’ [sponsor], EPSRC under grants EP/G069352/1 Advanced discretisation strategies for ‘‘atomistic’’ nano CMOS simulation [sponsor], EP/ G042705/1 Increased Reliability for Industrially Relevant Automatic Crack Growth Simulation with the eXtended Finite Element Method [sponsor], German Research Foundation (DFG) [sponsor], Chen, L., Rabczuk, T., Bordas, Stéphane, Liu, G. R., Zeng, K. Y., and Kerfriden, P.

Abstract

This paper presents a strain smoothing procedure for the extended finite element method (XFEM). The resulting "edge-based" smoothed extended finite element method (ESm-XFEM) is tailored to linear elastic fracture mechanics and, in this context, to outperform the standard XFEM. In the XFEM, the displacement-based approximation is enriched by the Heaviside and asymptotic crack tip functions using the framework of partition of unity. This eliminates the need for the mesh alignment with the crack and re-meshing, as the crack evolves. Edge-based smoothing (ES) relies on a generalized smoothing operation over smoothing domains associated with edges of simplex meshes, and produces a softening effect leading to a close-to-exact stiffness, "super-convergence" and "ultra-accurate" solutions. The present method takes advantage of both the ES-FEM and the XFEM. Thanks to the use of strain smoothing, the subdivision of elements intersected by discontinuities and of integrating the (singular) derivatives of the approximation functions is suppressed via transforming interior integration into boundary integration. Numerical examples show that the proposed method improves significantly the accuracy of stress intensity factors and achieves a near optimal convergence rate in the energy norm even without geometrical enrichment or blending correction.

Published
2012

36. Studying Visco-Plasticity of Amorphous Polymers by Indentation Tests.

Author

Gladwell, G. M. L., Bai, Y. L., Zheng, Q. S., Wei, Y. G., Zhang, C. Y., Zhang, Y. W., Zeng, K. Y., and Shen, L.

Abstract

A constitutive model for thermoplastic polymeric materials and its finite element implementation are presented. A five-step indentation scheme was formulated to extract a complete list of the parameters in the constitutive model. Indentation tests on polymethylmethacrylate (PMMA), following the five-step and other schemes, were performed. The experimental data using the five-step scheme were used to extract all the parameters in the model. The extracted parameters were then used to predict the other experimental results. Good agreements between the experimental results and model prediction indicate that the five-step indentation scheme is a practical approach to determine the mechanical properties of thermoplastic polymers. [ABSTRACT FROM AUTHOR]

Published
2007
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37. An edge-based smoothed finite element method for adaptive analysis.

Author

Chen, L., Zhang, J., Zeng, K. Y., and Jiao, P. G.

Subjects
MECHANICAL engineering, STRUCTURAL engineering, NUMERICAL analysis, FINITE element method, AUTOMOBILES, PROBLEM solving
Abstract

An efficient edge-based smoothed finite element method (ES-FEM) has been recently developed for solving solid mechanics problems. The ES-FEM uses triangular elements that can be generated easily for complicated domains. In this paper, the complexity study of the ES-FEM based on triangular elements is conducted in detail, which confirms the ES-FEM produces higher computational efficiency compared to the FEM. Therefore, the ES-FEM offers an excellent platform for adaptive analysis, and this paper presents an efficient adaptive procedure based on the ES-FEM. A smoothing domain based energy (SDE) error estimate is first devised making use of the features of the ES-FEM. The present error estimate differs from the conventional approaches and evaluates error based on smoothing domains used in the ES-FEM. A local refinement technique based on the Delaunay algorithm is then implemented to achieve high efficiency in the mesh refinement. In this refinement technique, each node is assigned a scaling factor to control the local nodal density, and refinement of the neighborhood of a node is accomplished simply by adjusting its scaling factor. Intensive numerical studies, including an actual engineering problem of an automobile part, show that the proposed adaptive procedure is effective and efficient in producing solutions of desired accuracy. [ABSTRACT FROM AUTHOR]

Published
2011
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38. Assessment of smoothed point interpolation methods for elastic mechanics.

Author

Chen, L., Nguyen-Xuan, H., Nguyen-Thoi, T., Zeng, K. Y., and Wu, S. C.

Subjects
FINITE element method, INTERPOLATION, POLYNOMIALS, BILINEAR forms, NUMERICAL analysis
Abstract

Copyright of International Journal for Numerical Methods in Biomedical Engineering is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2010
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39. Finite element simulation and experimental determination of interfacial adhesion properties by wedge indentation.

Author

Chen, L., Yeap, K. B., Zeng, K. Y., and Liu, G. R.

Subjects
ADHESION, INDENTATION (Materials science), WEDGES, DEFORMATIONS (Mechanics), FINITE element method, CURVES
Abstract

This paper presents our recent study on determination of interfacial adhesion properties of soft-film-on-hard-substrate (SFHS) systems using finite element simulation (FEM) and wedge indentation experiments. The objectives of this study are: (i) to simulate the interfacial delamination processes during wedge indentation experiments; (ii) to study the effects of interfacial delamination on the characteristics of the indentation load-displacement (P-h) curves, (iii) to determine the interfacial adhesion properties; and (iv) to compare the simulation and experimental results. During the FEM simulation, a traction-separation law is used to describe the interfacial adhesion properties due to the large-scale yielding during indentations. The effects of main parameters in the traction-separation law, i.e. interfacial strength and interfacial energy, to the initiation of interfacial delamination are studied by parametric studies. An interface energy-strength contour, which can be used to determine the interfacial adhesion properties of the thin-film/substrate systems based on a wedge indentation experiment, is developed from the outcomes of the FEM simulation of the indentations using wedge tips with the inclusion angles of 90° and 120°. Using the respective interface energy-strength contours, the interfacial energy and strength of a BlackDiamond® (BD)/Si system and a methylsilsesquioxane (MSQ)/Si system are determined. The simulated results are then compared with the previous experimentally derived interfacial fracture toughness values and some further discussions are given. [ABSTRACT FROM AUTHOR]

Published
2009
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43. An ES-XFEM formulation for 2D fracture mechanics analysis

Author

Chen, L., Bordas, Stephane Pierre Alain, Nguyen Xuan, H., Rabczuk, T., Natarajan, S., Pont, S. D., Zeng, K. Y., Chen, L., Bordas, Stephane Pierre Alain, Nguyen Xuan, H., Rabczuk, T., Natarajan, S., Pont, S. D., and Zeng, K. Y.

44. An ES-XFEM formulation for 2D fracture mechanics analysis

Author

Nguyen Xuan, H., Chen, L., Bordas, Stephane Pierre Alain, Rabczuk, T., Sundararajan, N., Dal Pont, S., Zeng, K. Y., Nguyen Xuan, H., Chen, L., Bordas, Stephane Pierre Alain, Rabczuk, T., Sundararajan, N., Dal Pont, S., and Zeng, K. Y.

45. Lithium Dendrite Growth Control Using Local Temperature Variation

Author

Aryanfar, Asghar, Colussi, Agustín J., Hoffmann, Michael R., Li, J. Y., Christensen, J., Huber, J., and Zeng, K. Y.

Abstract

We have quantified lithium dendrite growth in an optically accessible symmetric Li-metal cell, charged under imposed temperatures on the electrode surface. We have found that the dendrite length measure is reduced up to 43% upon increasing anodic temperature of about 50°C. We have deduced that imposing higher temperature on the electrode surface will augment the reduction rate relative to dendritic peaks and therefore lithium holes can draw near with the sharp deposited tips. We have addressed this mechanism via fundamentals of electrochemical transport.

Published
2014

46. Residual stress measurement in thin films using the semi-destructive ring-core drilling method using Focused Ion Beam

Author

Kaiyang Zeng, Jonathan P Belnoue, Jing Zhu, Kong Boon Yeap, Xu Song, Marco Sebastiani, Edoardo Bemporad, Alexander M. Korsunsky, aa vv, Song, X, Yeap K., B, Zhu, J, Belnoue, J, Sebastiani, Marco, Bemporad, Edoardo, Zeng K., Y, and Korsunsky, A. M.

Subjects
Digital image correlation, Materials science, Ion beam, business.industry, General Medicine, Structural engineering, strain relief master function, Focused ion beam, Finite element method, Overlayer, DIC, FIB, Residual stress, residual stresses, Trench, SEM, Thin film, Composite material, business, Engineering(all)
Abstract

In the present study, residual stress evaluation in thin films was achieved using a semi-destructive trench-cutting method. Focused Ion Beam (FIB) was employed to introduce the strain relief by ring-core milling, i.e. creating a trench around an "island". Either SEM or FIB imaging can be used to record sequences of images for strain change evaluation by Digital Image Correlation (DIC) analysis of micrographs. A regular array of shallow holes was drilled on a thin overlayer of Pt (∼100nm) deposited on to the film prior to patterning and trenching, in order to reduce the damage introduced by the ion beam during imaging and to assist the DIC strain evaluation by adding traceable markers. Finite Element (FE) simulation was also carried out to predict the curves for strain relief as a function of milling depth, and compared with the experimental measurements, which show good agreement with each other. An empirical mathematical description of the curves was proposed that allows efficient residual stress evaluation in thin solid films. © 2011 Published by Elsevier Ltd.

Published
2011

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