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35 results on '"Zhang, Li-Chuan"'

1. Evidence of Magnon-Mediated Orbital Magnetism in a Quasi-2D Topological Magnon Insulator

Author

Alahmed, Laith, Zhang, Xiaoqian, Wen, Jiajia, Xiong, Yuzan, Li, Yi, Zhang, Li-chuan, Lux, Fabian, Freimuth, Frank, Mahdi, Muntasir, Mokrousov, Yuriy, Novosad, Valentine, Kwok, Wai-Kwong, Yu, Dapeng, Zhang, Wei, Lee, Young S., and Li, Peng

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

We explore spin dynamics in Cu(1,3-bdc), a quasi-2D topological magnon insulator. The results show that the thermal evolution of Land\'e $g$-factor ($g$) is anisotropic: $g_\textrm{in-plane}$ reduces while $g_\textrm{out-plane}$ increases with increasing temperature $T$. Moreover, the anisotropy of the $g$-factor ($\Delta g$) and the anisotropy of saturation magnetization ($\Delta M_\textrm{s}$) are correlated below 4 K, but they diverge above 4 K. We show that the electronic orbital moment contributes to the $g$ anisotropy at lower $T$, while the topological orbital moment induced by thermally excited spin chirality dictates the $g$ anisotropy at higher $T$. Our work suggests an interplay among topology, spin chirality, and orbital magnetism in Cu(1,3-bdc)., Comment: 6 pages, 4 figures

Published
2022
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2. The interplay of Dzyaloshinskii-Moriya and Kitaev interactions for magnonic properties of Heisenberg-Kitaev honeycomb ferromagnets

Author

Zhang, Li-Chuan, Zhu, Fengfeng, Go, Dongwook, Lux, Fabian R., Santos, Flaviano José dos, Lounis, Samir, Su, Yixi, Blügel, Stefan, and Mokrousov, Yuriy

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The properties of Kitaev materials are attracting ever increasing attention owing to their exotic properties. In realistic two-dimensional materials, Kitaev interaction is often accompanied by the Dzyloshinskii-Moriya interaction, which poses a challenge of distinguishing their magnitude separately. In this work, we demonstrate that it can be done by accessing magnonic transport properties. By studying honeycomb ferromagnets exhibiting Dzyaloshinskii-Moriya and Kitaev interactions simultaneously, we reveal non-trivial magnonic topological properties accompanied by intricate magnonic transport characteristics as given by thermal Hall and magnon Nernst effects. We also investigate the effect of a magnetic field, showing that it does not only break the symmetry of the system but also brings drastic modifications to magnonic topological transport properties, which serve as hallmarks of the relative strength of anisotropic exchange interactions. Based on our findings, we suggest strategies to estimate the importance of Kitaev interactions in real materials., Comment: 6 pages, 4 figures

Published
2020
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3. Imprinting and driving electronic orbital magnetism using magnons

Author

Zhang, Li-chuan, Go, Dongwook, Hanke, Jan-Philipp, Buhl, Patrick M., Grytsiuk, Sergii, Blügel, Stefan, Lux, Fabian R., and Mokrousov, Yuriy

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Magnons, as the most elementary excitations of magnetic materials, have recently emerged as a prominent tool in electrical and thermal manipulation and transport of spin, and magnonics as a field is considered as one of the pillars of modern spintronics. On the other hand, orbitronics, which exploits the orbital degree of freedom of electrons rather than their spin, emerges as a powerful platform in efficient design of currents and redistribution of angular momentum in structurally complex materials. Here, we uncover a way to bridge the worlds of magnonics and electronic orbital magnetism, which originates in the fundamental coupling of scalar spin chirality, inherent to magnons, to the orbital degree of freedom in solids. We show that this can result in efficient generation and transport of electronic orbital angular momentum by magnons, thus opening the road to combining the functionalities of magnonics and orbitronics to their mutual benefit in the realm of spintronics applications., Comment: 9 pages, 5 figures. arXiv admin note: substantial text overlap with arXiv:1910.03317

Published
2020
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4. Orbital Nernst Effect of Magnons

Author

Zhang, Li-chuan, Lux, Fabian R., Hanke, Jan-Philipp, Buhl, Patrick M., Grytsiuk, Sergii, Blügel, Stefan, and Mokrousov, Yuriy

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In the past, magnons have been shown to mediate thermal transport of spin in various systems. Here, we reveal that the fundamental coupling of scalar spin chirality, inherent to magnons, to the electronic degrees of freedom in the system can result in the generation of sizeable orbital magnetization and thermal transport of orbital angular momentum. We demonstrate the emergence of the latter phenomenon of orbital Nernst effect by referring to the spin-wave Hamiltonian of kagome ferromagnets, predicting that in a wide range of systems the transverse current of orbital angular momentum carried by magnons in response to an applied temperature gradient can overshadow the accompanying spin current. We suggest that the discovered effect fundamentally correlates with the topological Hall effect of fluctuating magnets, and it can be utilized in magnonic devices for generating magnonic orbital torques., Comment: 6 pages, 3 figures

Published
2019

6. Layer dependence of geometric, electronic and piezoelectric properties of SnSe

Author

Fang, Wuzhang, Zhang, Li-Chuan, Qin, Guangzhao, Yan, Qing-Bo, Zheng, Qing-Rong, and Su, Gang

Subjects
Condensed Matter - Materials Science
Abstract

By means of first-principles calculations, we explore systematically the geometric, electronic and piezoelectric properties of multilayer SnSe. We find that these properties are layer-dependent, indicating that the interlayer interaction plays an important role. With increasing the number of SnSe layers from 1 to 6, we observe that the lattice constant decreases from 4.27 $\mathring{A}$ to 4.22 $\mathring{A}$ along zigzag direction, and increases from 4.41 $\mathring{A}$ to 4.51 $\mathring{A}$ along armchair direction close to the bulk limit (4.21 $\mathring{A}$ and 4.52 $\mathring{A}$, respectively); the band gap decreases from 1.45 eV to 1.08 eV, approaching the bulk gap 0.95 eV. Although the monolayer SnSe exhibits almost symmetric geometric and electronic structures along zigzag and armchair directions, bulk SnSe is obviously anisotropic, showing that the stacking of layers enhances the anisotropic character of SnSe. As bulk and even-layer SnSe have inversion centers, they cannot exhibit piezoelectric responses. However, we show that the odd-layer SnSe have piezoelectric coefficients much higher than those of the known piezoelectric materials, suggesting that the odd-layer SnSe is a good piezoelectric material., Comment: 18 pages, 4 figures, 1 table

Published
2016

7. Diverse anisotropy of phonon transport in two-dimensional IV-VI compounds: A comparative study

Author

Qin, Guangzhao, Qin, Zhenzhen, Fang, Wu-Zhang, Zhang, Li-Chuan, Yue, Sheng-Ying, Yan, Qing-Bo, Hu, Ming, and Su, Gang

Subjects
Physics - Computational Physics, Condensed Matter - Materials Science
Abstract

New classes two-dimensional (2D) materials beyond graphene, including layered and non-layered, and their heterostructures, are currently attracting increasing interest due to their promising applications in nanoelectronics, optoelectronics and clean energy, where thermal transport property is one of the fundamental physical parameters. In this paper, we systematically investigated the phonon transport properties of 2D orthorhombic group IV-VI compounds of $GeS$, $GeSe$, $SnS$ and $SnSe$ by solving the Boltzmann transport equation (BTE) based on first-principles calculations. Despite the similar puckered (hinge-like) structure along the armchair direction as phosphorene, the four monolayer compounds possess diverse anisotropic properties in many aspects, such as phonon group velocity, Young's modulus and lattice thermal conductivity ($\kappa$), etc. Especially, the $\kappa$ along the zigzag and armchair directions of monolayer $GeS$ shows the strongest anisotropy while monolayer $SnS$ and $SnSe$ shows an almost isotropy in phonon transport. The origin of the diverse anisotropy is fully studied and the underlying mechanism is discussed in detail. With limited size, the $\kappa$ could be effectively lowered, and the anisotropy could be effectively modulated by nanostructuring, which would extend the applications in nanoscale thermoelectrics and thermal management. Our study offers fundamental understanding of the anisotropic phonon transport properties of 2D materials, and would be of significance for further study, modulation and aplications in emerging technologies., Comment: 14 pages, 8 figures, 2 tables

Published
2016
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8. Tinselenidene: a Two-dimensional Auxetic Material with Ultralow Lattice Thermal Conductivity and Ultrahigh Hole Mobility

Author

Zhang, Li-Chuan, Qin, Guangzhao, Fang, Wu-Zhang, Cui, Hui-Juan, Zheng, Qing-Rong, Yan, Qing-Bo, and Su, Gang

Subjects
Condensed Matter - Materials Science
Abstract

By means of extensive ab initio calculations, a new two-dimensional (2D) atomic material tin selenide monolayer (coined as tinselenidene) is predicted to be a semiconductor with an indirect gap (1.45 eV) and a high hole mobility (of order 10000 cm2V-1S-1), and will bear an indirect-direct gap transition under a rather low strain (<0.5 GPa). Tinselenidene has a very small Young's modulus (20-40 GPa) and an ultralow lattice thermal conductivity (<3 Wm-1K-1 at 300 K), making it probably the most flexible and most heat-insulating material in known 2D atomic materials. In addition, tinseleniden has a large negative Poisson's ratio of -0.17, thus could act as a 2D auxetic material. With these intriguing properties, tinselenidene could have wide potential applications in thermoelectrics, nanomechanics and optoelectronics., Comment: 25 pages, 4 figures, 1 table

Published
2015
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10. Magnetization and Spin Dynamics in Two-Dimensional Magnets

Author

Alahmed, Laith, primary, Nepal, Bhuwan, additional, Macy, Juan, additional, Casas, Brian, additional, Sapkota, Arjun, additional, Mazza, Alessandro R, additional, Brahlek, Matthew, additional, Wen, Jiajia, additional, Jin, Wencan, additional, Zhang, Steven S.-L., additional, Mewes, Claudia, additional, Zhang, Li-Chuan, additional, Mokrousov, Yuriy, additional, Zhang, Wei, additional, Lee, Young S., additional, Balicas, Luis, additional, Mewes, Tim, additional, Zhang, Xiaoqian, additional, and Li, Peng, additional

Published
2023
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12. Evidence of Magnon-Mediated Orbital Magnetism in a Quasi-2D Topological Magnon Insulator

Author

Alahmed, Laith, primary, Zhang, Xiaoqian, additional, Wen, Jiajia, additional, Xiong, Yuzan, additional, Li, Yi, additional, Zhang, Li-chuan, additional, Lux, Fabian, additional, Freimuth, Frank, additional, Mahdi, Muntasir, additional, Mokrousov, Yuriy, additional, Novosad, Valentine, additional, Kwok, Wai-Kwong, additional, Yu, Dapeng, additional, Zhang, Wei, additional, Lee, Young S., additional, and Li, Peng, additional

Published
2022
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23. Application of microfluidic gradient chip in the analysis of lung cancer chemotherapy resistance

Author

Zhang Li-chuan, Wang Jiarui, Lin Bingcheng, Wang Ying-yan, Jiang Li, Yue Feng, Wang Si-yan, and Wang Qi

Subjects
Programmed cell death, Indoles, Lung Neoplasms, Clinical Biochemistry, Fluorescent Antibody Technique, Pharmaceutical Science, Antineoplastic Agents, Apoptosis, Analytical Chemistry, chemistry.chemical_compound, Cell Line, Tumor, Drug Discovery, Image Processing, Computer-Assisted, medicine, Humans, DAPI, Lung cancer, Endoplasmic Reticulum Chaperone BiP, Calcimycin, Heat-Shock Proteins, Spectroscopy, Etoposide, Fluorescent Dyes, Ionophores, Reproducibility of Results, Cancer, Microfluidic Analytical Techniques, medicine.disease, Antineoplastic Agents, Phytogenic, Squamous carcinoma, chemistry, Epidermoid carcinoma, Drug Resistance, Neoplasm, Cell culture, Cancer research
Abstract

The major challenge of chemotherapy is the disease resistance for many lung cancer patients. Integrated microfluidic systems offer many desirable characteristics and can be used in cellular biological analysis. This work aimed to study the correlation between the expression of Glucose Regulated Protein-78 (GRP78) and the resistance to anticancer drug VP-16 in human lung squamous carcinoma cell line SK-MES-1 using an integrated microfluidic gradient chip device. We used A23187, a GRP78 inducer, with a gradient concentration in the upstream network of the device to induce the expression of GRP78 in the cells cultured in the downstream before the addition of VP-16. The expression of GRP78 was detected by immunofluorescence, the apoptosis for the cells treated by VP-16 was assessed morphologically by 4',6-diamidino-2-phenylindole (DAPI) staining. The results indicated that the expressions of GRP78 increased greatly for the cells under the induction of A23187 with a dose-depended manner, while the percentage of apoptotic cells decreased significantly after being treated by VP-16. Our results from this study confirmed the role of GRP78 played in the chemotherapy resistance to VP-16 in SK-MES-1 cell line, suggesting that the integrated microfluidic systems may be an unique approach for characterizing the cellular responses.

Published
2009

29. The Analysis of Chemotherapy Resistance in Human Non-small Cell Lung Cancer Cell Line with an Integrated Microfluidic Device

Author

Wang Qi, Lin Bingcheng, Jiang Li, Wang Si-yan, and Zhang Li-chuan

Subjects
Immune system, medicine.diagnostic_test, Apoptosis, Cell culture, Microfluidics, Molecular biophysics, medicine, Cancer, Bio-MEMS, Biology, medicine.disease, Immunofluorescence, Cell biology
Abstract

Microchip-based systems have many desirable characteristics and can be used in much cellular biological analysis. This work studied the correlation between the expression of Glucose-regulated protein-78 (GRP78) and anticancer drug VP-16 in human non-small cell lung cancer cell line SK-MES-1 using an integrated microfluidic device. A concentration gradient of stimulator (A23187) was generated in the upstream network of the device to induce the cells cultured in the downstream. Then the cells were treated by VP-16. The expression of GRP78 was detected by immunofluorescence. Apoptosis was assessed morphologically by 4'-6-Diamidino-2-phenylindol nuclear staining for the cells treated by VP-16. The expressions of GRP78 for the A23187-induced cells increased After the treatment by VP-16, the percentage of apoptotic cells decreased with the increasing of A23187 concentration. GRP78 plays an important role in the resistance to VP-16 in SK-MES-1. This system offers a unique platform to characterize cellular responses in a high-throughput fashion.

Published
2008

30. The two-machine open shop problem with time delays

Author

Zhang, Li Chuan and Zhang, Li Chuan

Abstract

Research on scheduling problems as we know it nowadays dates back to 1950s. Indeed, in 1954, Johnson described an exact algorithm to minimize the overall completion time (known as the makespan) for the two-machine flow shop problem. This resulted in a new discipline of operational research known as scheduling theory. Scheduling theory deals with the attempt of using a set of scarce resources in accomplishing variegated tasks in order to optimize one or several criteria. The resources and tasks are commonly referred to as machines and jobs, respectively. There is a broad spectrum of definitions for the tasks and resources. For example, the resources can take the form of production lines in workshops, airport runways, school classrooms, etc. Furthermore, the process of fulfilling a task in a given machine is sometimes called an operation. For instance, a task may be represented by the work-pieces processed on production lines, the aircrafts taking off and landing at airports, the teachers lecturing in classrooms and so on. Let us note at this stage that machines and jobs may have been characterized by many other factors such as speed, time of availability, duplication, etc for the former, and precedence constraints, due dates, time lags for the latter. These factors must be taken into consideration when formulating a scheduling strategy if we want to produce a realistic solution. Generally speaking, scheduling problems fall into the following three categories: A single machine model, parallel machines model and multi-operation model. The models known as multi-operation model are flow-shop, open shop and job shop. In addition, a scheduling solution is evaluated according to a given criterion or sometimes to a set of given criteria such as the minimization of makespan, mean finish time, number of tardy jobs, etc. This thesis is mainly concerned with the problems of minimizing the makespan criterion in a two-machine open shop environment with time delay considerations. I

Published
2012
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35. A topological nodal line semi-metal with a negative Poisson's ratio in a three-dimensional carbon network with sp 2 hybridization.

Author

Jiang W, Jiang J, Zhang Z, Wu W, Zhang LC, Xie Y, and Chen Y

Abstract

In carbon allotropes, a series of topological semi-metals have been predicted, but both novel electronic properties and mechanical characteristics, e.g. , a negative Poisson's ratio (NPR), are rarely discovered in the same sp 2 type system. Here, a new three-dimensional carbon network, named WZGN, constructed from distorted one-dimensional zigzag graphene nanoribbons is proposed. The stability of the system is fully ensured by the phonon dispersion, AIMD simulation, and binding energy calculations. Besides, it is found that the system holds both topologically protected nodal line semi-metal properties together with an NPR property. Especially, the value of the NPR can exceed -0.36 when 21% uniaxial tensile strain along the c '-direction is applied. Our findings point out that nodal line semi-metals can be compatible with intrinsic NPR properties in a wide strain range in carbon systems with sp 2 hybridization, suggesting possible applications in mechanical and electronics fields.

Published
2024
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