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51. Variational system identification of the partial differential equations governing pattern-forming physics: Inference under varying fidelity and noise

Author

Wang, Zhenlin, Huan, Xun, and Garikipati, Krishna

Subjects
Physics - Computational Physics
Abstract

We present a contribution to the field of system identification of partial differential equations (PDEs), with emphasis on discerning between competing mathematical models of pattern-forming physics. The motivation comes from developmental biology, where pattern formation is central to the development of any multicellular organism, and from materials physics, where phase transitions similarly lead to microstructure. In both these fields there is a collection of nonlinear, parabolic PDEs that, over suitable parameter intervals and regimes of physics, can resolve the patterns or microstructures with comparable fidelity. This observation frames the question of which PDE best describes the data at hand. This question is particularly compelling because identification of the closest representation to the true PDE, while constrained by the functional spaces considered relative to the data at hand, immediately delivers insights to the physics underlying the systems. While building on recent work that uses stepwise regression, we present advances that leverage the variational framework and statistical tests. We also address the influences of variable fidelity and noise in the data., Comment: To be appear in Computer Methods in Applied Mechanics and Engineering

Published
2018
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52. Generation of optical frequency comb in a chi-2 sheet micro optical parametric oscillator via cavity phase matching

Author

Lv, Xinjie, Ni, Xin, Xie, Zhenda, Huang, Shu-Wei, Yao, Baicheng, Liu, Huaying, Sernicola, Nicolo, Zhao, Gang, Wang, Zhenlin, and Zhu, Shi-Ning

Subjects
Physics - Optics
Abstract

Chi-3 micro resonators have enabled compact and portable frequency comb generation, but require sophisticated dispersion control. Here we demonstrate an alternative approach using a chi-2 sheet cavity, where the dispersion requirement is relaxed by cavity phase matching. 21.2 THz broadband comb generation is achieved with uniform line spacing of 133.0 GHz, despite a relatively large dispersion of 275.4 fs^2/mm around 1064nm. With 22.6 % high slope efficiency and 14.9 kW peak power handling, this chi-2 comb can be further stabilized for navigation, telecommunication, astronomy, and spectroscopy applications.

Published
2018

53. Recent advanced applications of metasurfaces in multi-dimensions

Author

Yuan Quan, Ge Qin, Chen Linsen, Zhang Yi, Yang Yuhang, Cao Xun, Wang Shuming, Zhu Shining, and Wang Zhenlin

Subjects
application, dimension, metasurface, wavelength scale, Physics, QC1-999
Abstract

Unlike traditional optical components, which rely on the gradual accumulation of light along the optical path over a distance much larger than the wavelength to form a wavefront, metasurfaces manipulate light field properties on the wavelength thickness by specially arranging various meta-atoms. Due to the ease of integration and compact planar structure, metasurfaces play a key role in the light field manipulations. Here, we review the recent advances of metasurfaces in multi-dimensions, including light wavelength, polarization, orbital angular momentum(OAM), and angular response. Progress in these fields has brought new applications in areas such as imaging, display, communication, and information encryption, etc. Finally, we also discuss the challenges and prospects of metasurfaces applications.

Published
2023
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56. Review on Applications of Artificial Intelligence in Relay Protection

Author

Dai, Ming, Luo, Guomin, Wang, Zhenlin, Chen, Qihui, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Yang, Qingxin, editor, Liang, Xidong, editor, Li, Yaohua, editor, and He, Jinghan, editor

Published
2022
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58. Energy Storage Capacity Allocation Scheme of Wind Farm Considering Multi-Objective Optimization Model

Author

CHEN Xiaoguang, YANG Xiuyuan, WANG Zhenlin, and WANG Haoyang

Subjects
energy storage, wind farm, multi-objective solution, optimal allocation, lithium ion battery, super capacitor, Applications of electric power, TK4001-4102, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Science
Abstract

A new scheme of lithium ion battery and super capacitor hybrid energy storage system in wind farm was proposed. The original wind power was decomposed by the wavelet packet frequency division technology to obtain the compensation power of the hybrid energy storage system. Taking the hybrid energy storage configuration scheme as the optimization variable, the improved life cycle cost was introduced, and a multi-objective energy storage system configuration model of net income volatility waste air volume was established. The model was solved by the improved probabilistic mutation particle swarm optimization (PMPSO) to obtain the Pareto solution set. The solution set was normalized to obtain the optimal allocation scheme of entropy weight. Compared with the single objective optimal scheme, it shows that the optimal allocation scheme of entropy weight takes into account both economy and function. Compared with the adaptive quantum particle swarm optimization (AQPSO), it is verified that the optimal allocation scheme of entropy weight obtained by improved PMPSO algorithm not only ensures the small waste air volume and volatility, but also configures the energy storage with smaller capacity to obtain greater benefits and meet the multi-objective allocation requirements.

Published
2022
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59. Experimental identification of critical condition for drastically enhancing thermoelectric power factor of two-dimensional layered materials

Author

Zeng, Junwen, He, Xin, Liang, Shi-Jun, Liu, Erfu, Sun, Yuanhui, Pan, Chen, Wang, Yu, Cao, Tianjun, Liu, Xiaowei, Wang, Chengyu, Zhang, Lili, Yan, Shengnan, Su, Guangxu, Wang, Zhenlin, Watanabe, Kenji, Taniguchi, Takashi, Singh, David J., Zhang, Lijun, and Miao, Feng

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Nano-structuring is an extremely promising path to high performance thermoelectrics. Favorable improvements in thermal conductivity are attainable in many material systems, and theoretical work points to large improvements in electronic properties. However, realization of the electronic benefits in practical materials has been elusive experimentally. A key challenge is that experimental identification of the quantum confinement length, below which the thermoelectric power factor is significantly enhanced, remains elusive due to lack of simultaneous control of size and carrier density. Here we investigate gate tunable and temperature-dependent thermoelectric transport in $\gamma$ phase indium selenide ($\gamma$ InSe, n type semiconductor) samples with thickness varying from 7 to 29 nm. This allows us to properly map out dimension and doping space. Combining theoretical and experimental studies, we reveal that the sharper pre-edge of the conduction-band density of states arising from quantum confinement gives rise to an enhancement of the Seebeck coefficient and the power factor in the thinner InSe samples. Most importantly, we experimentally identify the role of the competition between quantum confinement length and thermal de Broglie wavelength in the enhancement of power factor. Our results provide an important and general experimental guideline for optimizing the power factor and improving the thermoelectric performance of two-dimensional layered semiconductors., Comment: 26 page, 5 figures

Published
2018
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60. Optical Lattices with Higher-order Exceptional Points by Non-Hermitian Coupling

Author

Zhou, Xingping, Gupta, Samit Kumar, Huang, Zhong, Yan, Zhendong, Zhan, Peng, Chen, Zhuo, Lu, Minghui, and Wang, Zhenlin

Subjects
Physics - Optics
Abstract

Exceptional points (EPs) are degeneracies in open wave systems with coalescence of at least two energy levels and their corresponding eigenstates. In higher dimensions, more complex EP physics not found in two-state systems is observed. We consider the emergence and interaction of multiple EPs in a four coupled optical waveguides system by non-Hermitian coupling showing a unique EP formation pattern in a phase diagram. In addition, absolute phase rigidities are computed to show the mixing of the different states in definite parameter regimes. Our results could be potentially important for developing further understanding of EP physics in higher dimensions via generalized paradigm of nonHermitian coupling for a new generation of parity-time (PT) devices., Comment: To appear: Appl. Phys. Lett

Published
2018
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61. Low-Temperature Eutectic Synthesis of PtTe2 with Weak Antilocalization and Controlled Layer Thinning

Author

Hao, Song, Zeng, Junwen, Xu, Tao, Cong, Xin, Wang, Chenyu, Wu, Chenchen, Wang, Yaojia, Liu, Xiaowei, Cao, Tianjun, Su, Guangxu, Jia, Lanxin, Wu, Zhangting, Lin, Qian, Zhang, Lili, Yan, Shengnan, Guo, Mengfan, Wang, Zhenlin, Tan, Pingheng, Sun, Litao, Ni, Zhenhua, Liang, Shi-Jun, Cui, Xinyi, and Miao, Feng

Subjects
Condensed Matter - Materials Science
Abstract

Metallic transition metal dichalcogenides (TMDs) have exhibited various exotic physical properties and hold the promise of novel optoelectronic and topological devices applications. However, the synthesis of metallic TMDs is based on gas-phase methods and requires high temperature condition. As an alternative to the gas-phase synthetic approach, lower temperature eutectic liquid-phase synthesis presents a very promising approach with the potential for larger-scale and controllable growth of high-quality thin metallic TMDs single crystals. Herein, we report the first realization of low-temperature eutectic liquid-phase synthesis of type-II Dirac semimetal PtTe2 single crystals with thickness ranging from 2 to 200 nm. The electrical measurement of synthesized PtTe2 reveals a record-high conductivity of as high as 3.3*106 S/m at room temperature. Besides, we experimentally identify the weak antilocalization behavior in the type-II Dirac semimetal PtTe2 for the first time. Furthermore, we develop a simple and general strategy to obtain atomically-thin PtTe2 crystal by thinning as-synthesized bulk samples, which can still retain highly crystalline and exhibits excellent electric conductivity. Our results of controllable and scalable low-temperature eutectic liquid-phase synthesis and layer-by-layer thinning of high-quality thin PtTe2 single crystals offer a simple and general approach for obtaining different thickness metallic TMDs with high-melting point transition metal.

Published
2018
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62. A multi-physics battery model with particle scale resolution of porosity evolution driven by intercalation strain and electrolyte flow

Author

Wang, Zhenlin and Garikipati, Krishna

Subjects
Physics - Computational Physics
Abstract

We present a coupled continuum formulation for the electrostatic, chemical, thermal, mechanical and fluid physics in battery materials. Our treatment is at the particle scale, at which the active particles held together by carbon-binders, the porous separator, current collectors and the perfusing electrolyte are explicitly modeled. Starting with the description common to the field, in terms of reaction-transport partial differential equations for ions, variants of the classical Poisson equation for electrostatics, and the heat equation, we introduce solid-fluid interaction to the problem. Our main contribution is to model the electrolyte as an incompressible fluid driven by elastic, thermal and lithium intercalation strains in the active material. Our treatment is in the finite strain setting, and uses the Arbitrary Lagrangian-Eulerian (ALE) framework to account for mechanical coupling of the solid and fluid. We present a detailed computational study of the influence of solid-fluid interaction and magnitude of intercalation strain upon porosity evolution, ion distribution and electrostatic potential fields in the cell.

Published
2018

63. Analog Circuit Applications based on Ambipolar Graphene/MoTe2 Vertical Transistors

Author

Pan, Chen, Fu, Yajun, Wang, Jiaxin, Zeng, Junwen, Su, Guangxu, Long, Mingsheng, Liu, Erfu, Wang, Chenyu, Gao, Anyuan, Wang, Miao, Wang, Yu, Wang, Zhenlin, Liang, Shi-Jun, Huang, Ru, and Miao, Feng

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The current integrated circuit (IC) technology based on conventional MOS-FET (metal-oxide-semiconductor field-effect transistor) is approaching the limit of miniaturization with increasing demand on energy. Several analog circuit applications based on graphene FETs have been demonstrated with less components comparing to the conventional technology. However, low on/off current ratio caused by the semimetal nature of graphene has severely hindered its practical applications. Here we report a graphene/MoTe2 van der Waals (vdW) vertical transistor with V-shaped ambipolar field effect transfer characteristics to overcome this challenge. Investigations on temperature dependence of transport properties reveal that gate tunable asymmetric barriers of the devices are account for the ambipolar behaviors. Furthermore, to demonstrate the analog circuit applications of such vdW vertical transistors, we successfully realized output polarity controllable (OPC) amplifier and frequency doubler. These results enable vdW heterojunction based electronic devices to open up new possibilities for wide perspective in telecommunication field., Comment: To appear on Advanced Electronics Materials; 26 pages, 5 figures, 7 supplementary figures

Published
2018
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64. Little Pranksters: Inhibitory Control Mediates the Association between False Belief Understanding and Practical Joking in Young Children

Author

Wang, Zhenlin and Wang, Lamei

Abstract

To successfully pull a practical joke on someone, children need to understand that their victims do not know what they themselves know, be able to intentionally manipulate others' beliefs, and maintain a straight face to safeguard the integrity of the joke. This study examined the relationship between children's developing theory of mind (ToM), inhibitory control, and their ability to pull a practical joke. Ninety-five children between ages 2 and 6 participated in, among other measures, a practical joke task that required them to knowingly give one of the experimenters a gift box containing a rubber insect. Results showed that children's ability to pull a practical joke was significantly related to their age, false belief understanding (FBU), inhibitory control, and verbal ability. Children with more siblings were more likely to successfully pull a practical joke. Most importantly, inhibitory control was shown to mediate the relation between FBU and practical joking. The findings provide evidence that practical joking as an example of ToM use is effortful.

Published
2021
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72. Optimal double resonant condition in metallic core-shell nanocavity for third harmonic generation

Author

Zang, Wenbo, Fan, Lingling, Yang, Xin, Ma, Mingyu, Zhan, Peng, Chen, Zhuo, and Wang, Zhenlin

Subjects
Physics - Optics
Abstract

As the rapid development of nonlinear optics, the enhancement of optical third harmonic generation becomes a pop research realm in the fields of physics, chemistry, biology, materials science, information science and other fields. In this letter, theoretical analysis on double resonance situation in metallic core-shell nanostructure is performed in order to optimize the efficiency of third harmonic generation. As plenty of cavity modes ranging from visible area to near infrared can be excited efficiently in core-shell nanospheres, kinds of double resonant conditions can be formed by matching two different multipolar cavity modes. Numerical simulations show that the third harmonic generation (THG) intensity in the far field can be enhanced remarkably when the THG signal couples well with the high order cavity mode. More importantly, THG efficiency is optimum from the cavity on double resonant conditions coupling two modes with the same order. The THG intensity differs up to 3 magnitudes on this condition. Subsequent theoretical analysis indicates that changing third-order nonlinear susceptibility of the metal shell while keeping that of the core fixed has almost no effect on THG efficiency. This finding about optimal double resonance has an appreciable effect on optimizing THG in spherical cavity structures., Comment: 7 pages, 4 figures

Published
2017

73. Tunable hyperbolic metamaterial cavity towards few exciton strong coupling

Author

Fan, Lingling, Wu, Wenyang, Zang, Wenbo, Chen, Zhuo, and Wang, Zhenlin

Subjects
Physics - Optics
Abstract

We theoretically investigate coupling interaction between molecule excitons and whispering gallery modes (WGMs) that approaches the limit of single exciton strong coupling in hyperbolic metamaterial (HMM) cavity, composed of a dielectric core wrapped by several stacks of alternative layers of metal and dielectric. We demonstrate that associated with the excitation of the whispering gallery mode, the electric fields with resonance wavelengths that are much larger than the cavity size can be highly localized within a dielectric layer, leading to extremely small mode volumes. By using temporal coupled mode theory to model the interaction in the proposed WGMs-exciton system, we are able to demonstrate that the coupling between molecular excitons and hyperbolic cavity WGMs can reach the strong coupling regime. Furthermore, we also prove that changing both the thickness of inner core and outermost layer can lead to invariant resonance frequency while the threshold number of coupled excitons to fulfill the criteria for strong coupling remains ~ 4 in various sets of tunable HMM cavities.

Published
2017

74. Earlier false belief understanding predicts later lie‐telling behavior in preschool children, but not vice versa.

Author

Wang, Zhenlin, Gao, Xiaozi, and Shao, Yihan

Subjects
*THEORY of mind, *CHILD behavior, *RESPONSE inhibition, *VERBAL ability, *SOCIOECONOMIC status, *PRESCHOOL children
Abstract

Young children's lie‐telling behavior is associated with their theory of mind (ToM) development. However, current evidence is primarily based on cross‐sectional studies, with very little longitudinal evidence on the causal relation between the two constructs. The current study provided much‐needed cross‐lagged longitudinal evidence on the association between ToM and lying in young children. Adopting a short‐term longitudinal design, we tested 104 normally developing children's (64 boys, M = 54.0 months) false belief understanding and lie‐telling behaviors three times at 4‐month intervals. Results showed the cross‐lagged model fit the data well. Lie‐telling behaviors exhibited moderate stability across the three time points, while ToM exhibited moderate stability between the first two time points but not between Time 2 and Time 3. Earlier false belief understanding significantly predicted children's later lie‐telling behavior, controlling for family socioeconomic status, child age, gender, only child status, and Time 1 verbal ability and inhibitory control. On the contrary, earlier lie‐telling did not predict later false beliefs understanding. We concluded that earlier false belief understanding predicts later lie‐telling behavior in preschool children, but not vice versa. [ABSTRACT FROM AUTHOR]

Published
2024
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75. Low Strength Wastewater Treatment Using a Combined Biological Aerated Filter/Anammox Process.

Author

Xie, Wanying, Li, Ji, Song, Tao, Li, Yong, Wang, Zhenlin, and Zhang, Xiaolei

Subjects
NITROGEN removal (Sewage purification), PROCESS capability, EFFLUENT quality, CHEMICAL oxygen demand, WASTEWATER treatment
Abstract

To achieve the in situ capacity expansion of the post-denitrification biological aerated filter (BAF-DN), the integration of BAF with the anammox process (BAF/AX) was proposed. With the objective of maximizing retaining ammonia nitrogen, the operational optimization of BAF was achieved by two distinct strategies. The treatment performance of BAF demonstrated that the removal efficiencies of chemical oxygen demand (COD) and ammonia nitrogen ( NH 4 + - N ) was 66.3~67.3% and 4~12%, respectively, under conditions of low aeration intensity (0.4 m3·m−2·h−1) or a shortened empty bed residence time (EBRT) of 30 min. Residual NH 4 + - N in the BAF effluent served as the ammonia substrate for the subsequent anammox process, which was successfully launched by using ceramic particles and sponges as carriers. Notably, the sponge carrier facilitated a shorter start-up period of 41 to 44 days. Furthermore, the sponge-based anammox reactor exhibited a superior NH 4 + - N removal capacity (≥85.7%), under operations of a shorter EBRT of 40 min, low influent NH 4 + - N concentrations (≤30 mg/L), and COD levels of ≤67 mg/L. In addition, a comprehensive evaluation of the BAF/AX process was conducted, which considered performance, cost-effectiveness, and engineering feasibility. The performance results illustrated that the effluent quality met the standard well (with a COD level of ≤ 50 mg/L, and a TN of ≤3.1~10.5 mg/L). Following a comparison against the low aeration intensity operation, it was recommended to operate BAF at a low EBRT within the BAF/AX process. Consequently, the treated volume was double the volume of the standalone BAF-DN, synchronously achieving low costs (0.413 yuan/m3). [ABSTRACT FROM AUTHOR]

Published
2024
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76. Parallel Level set algorithm with MPI and accelerated on GPU

Author

Wang, Zhenlin

Subjects
Physics - Computational Physics
Abstract

Level set method has been used to capture interface motion. Narrow band algorithm is applied to localize the solving of level-set PDE on global domain to a tube around interface. Due to the unknown evolving interface, narrow band algorithm brings load balance problem for parallelizing computing. This work presents a tool for evenly distributing work loads on CPUs. On the other hand, numerically solving level-set PDE only needs simple operations but on large grid points. This work also presents a GPU acceleration for solving level-set PDE using finite difference method., Comment: 10 pages, 4 figure

Published
2016

82. A scale-invariant large-area single-mode topological photonic cavity

Author

Xie, Biye, primary, Li, Zhongfu, additional, Li, Shiqi, additional, Yan, Bei, additional, Chan, Hsun-Chi, additional, Li, Jing, additional, Guan, Jun, additional, Bi, Wengang, additional, Xiang, Yuanjiang, additional, Gao, Zhen, additional, Zhang, Shuang, additional, Zhan, Peng, additional, and Wang, Zhenlin, additional

Published
2024
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87. Intercalation driven porosity effects in coupled continuum models for the electrical, chemical, thermal and mechanical response of battery electrode materials

Author

Wang, Zhenlin, Siegel, Jason B., and Garikipati, Krishna

Subjects
Physics - Chemical Physics
Abstract

We present a coupled continuum formulation for the electrostatic, chemical, thermal and mechanical processes in battery materials. Our treatment applies on the macroscopic scale, at which electrodes can be modelled as porous materials made up of active particles held together by binders and perfused by the electrolyte. Starting with the description common to the field, in terms of reaction-transport partial differential equations for ions, variants of the classical Poisson equation for electrostatics, and the heat equation, we add mechanics to the problem. Our main contribution is to model the evolution of porosity as a consequence of strains induced by intercalation, thermal expansion and mechanical stresses. Recognizing the potential for large local deformations, we have settled on the finite strain framework. We present a detailed computational study of the influence of the dynamically evolving porosity, upon ion distribution, electrostatic potential fields, charge-discharge cycles and mechanical force generated in the cell., Comment: 43 pages, 24 figures, appear in J. Electrochem. Soc

Published
2016

88. Gate-Tunable Negative Longitudinal Magnetoresistance in the Predicted Type-II Weyl Semimetal WTe2

Author

Wang, Yaojia, Liu, Erfu, Liu, Huimei, Pan, Yiming, Zhang, Longqiang, Zeng, Junwen, Fu, Yajun, Wang, Miao, Xu, Kang, Huang, Zhong, Wang, Zhenlin, Lu, Haizhou, Xing, Dingyu, Wang, Baigeng, Wan, Xiangang, and Miao, Feng

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

The progress in exploiting new electronic materials and devices has been a major driving force in solid-state physics. As a new state of matter, a Weyl semimetal (WSM), particularly a type-II WSM, hosts Weyl fermions as emergent quasiparticles and may harbor novel electrical transport properties because of the exotic Fermi surface. Nevertheless, such a type-II WSM material has not been experimentally observed in nature. In this work, by performing systematic magneto-transport studies on thin films of a predicted material candidate WTe2, we observe notable angle-sensitive (between the electric and magnetic fields) negative longitudinal magnetoresistance (MR), which can likely be attributed to the chiral anomaly in WSM. This phenomenon also exhibits strong planar orientation dependence with the absence of negative longitudinal MR along the tungsten chains (a axis), which is consistent with the distinctive feature of a type-II WSM. By applying a gate voltage, we demonstrate that the Fermi energy can be tuned through the Weyl points via the electric field effect; this is the first report of controlling the unique transport properties in situ in a WSM system. Our results have important implications for investigating simulated quantum field theory in solid-state systems and may open opportunities for implementing new types of electronic applications, such as field-effect chiral electronic devices., Comment: accepted by Nature Communications; 27 pages, 3 figures, 9 supplementary figures; submitted on May 1st, 2016

Published
2016
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91. Integrin αvβ3 and LHRH Receptor Double Directed Nano-Analogue Effective Against Ovarian Cancer in Mice Model

Author

Qi,Na, Zhou,Xiantai, Ma,Ningzhu, Zhang,Jianguo, Wang,Zhenlin, Zhang,Xin, Li,Aimin, Qi,Na, Zhou,Xiantai, Ma,Ningzhu, Zhang,Jianguo, Wang,Zhenlin, Zhang,Xin, and Li,Aimin

Abstract

Na Qi,1,* Xiantai Zhou,2,* Ningzhu Ma,2 Jianguo Zhang,2 Zhenlin Wang,2 Xin Zhang,1 Aimin Li1 1Cancer Center, Integrated Hospital of Traditional Chinese Medicine, Southern Medical University, Guangzhou, 510315, People’s Republic of China; 2Department of Pharmacy, Guilin Medical University, Guilin, 541004, People’s Republic of China*These authors contributed equally to this workCorrespondence: Aimin Li; Xin Zhang, Cancer Center, Integrated Hospital of Traditional Chinese Medicine, Southern Medical University, Guangzhou, 510315, People’s Republic of China, Email liaimin2005@163.com; 252089553@qq.comIntroduction: The high mortality rate of malignant ovarian cancer is attributed to the absence of effective early diagnosis methods. The LHRH receptor is specifically overexpressed in most ovarian cancers, and the integrin αvβ 3 receptor is also overexpressed on the surface of ovarian cancer cells. In this study, we designed LHRH analogues (LHRHa)/RGD co-modified paclitaxel liposomes (LHRHa-RGD-LP-PTX) to target LHRH receptor-positive ovarian cancers more effectively and enhance the anti-ovarian cancer effects.Methods: LHRHa-RGD-LP-PTX liposomes were prepared using the thin film hydration method. The morphology, physicochemical properties, cellular uptake, and cell viability were assessed. Additionally, the cellular uptake mechanism of the modified liposomes was investigated using various endocytic inhibitors. The inhibitory effect of the formulations on tumor spheroids was observed under a microscope. The co-localization with lysosomes was visualized using confocal laser scanning microscopy (CLSM), and the in vivo tumor-targeting ability of the formulations was assessed using the IVIS fluorescent imaging system. Finally, the in vivo anti-tumor efficacy of the formulations was evaluated in the armpits of BALB/c nude mice.Results: The results indicated that LHRHa-RGD-LP-PTX significantly enhanced cellular uptake in A2780 cells, increased cytoto

Published
2024

92. A three dimensional field formulation, and isogeometric solutions to point and line defects using Toupin's theory of gradient elasticity at finite strains

Author

Wang, Zhenlin, Rudraraju, Shiva, and Garikipati, Krishna

Subjects
Condensed Matter - Materials Science
Abstract

We present a field formulation for defects that draws from the classical representation of the cores as force dipoles. We write these dipoles as singular distributions. Exploiting the key insight that the variational setting is the only appropriate one for the theory of distributions, we arrive at universally applicable weak forms for defects in nonlinear elasticity. Remarkably, the standard, Galerkin finite element method yields numerical solutions for the elastic fields of defects that, when parameterized suitably, match very well with classical, linearized elasticity solutions. The true potential of our approach, however, lies in its easy extension to generate solutions to elastic fields of defects in the regime of nonlinear elasticity, and even more notably for Toupin's theory of gradient elasticity at finite strains(Arch. Rat. Mech. Anal., 11, 385, 1962). In computing these solutions we adopt recent numerical work on an isogeometric analytic framework that enabled the first three-dimensional solutions to general boundary value problems of Toupin's theory (Rudraraju et al. Comp. Meth. App. Mech. Engr., 278, 705, 2014). We first present exhaustive solutions to point defects, edge and screw dislocations, and a study on the energetics of interacting dislocations. Then, to demonstrate the generality and potential of our treatment, we apply it to other complex dislocation configurations, including loops and low-angle grain boundaries., Comment: Journal of the Mechanics and Physics of Solids: http://dx.doi.org/10.1016/j.jmps.2016.03.028

Published
2015
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