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1,532 results on '"Zhou, Xiaoying"'

1. Anomalous quantum scattering and transport of electrons with Mexican-hat dispersion induced by electrical potential

Author

Yao, Jiating, Zhou, Benliang, Zhou, Xiaoying, Xiao, Xianbo, and Zhou, Guanghui

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We theoretically study the quantum scattering and transport of electrons with Mexican-hat dispersion through both step and rectangular potential barriers by using the transfer matrix method. Owing to the torus-like iso-energy lines of the Mexican-hat dispersion, we observe the presence of double reflections and double transmissions in both two different barrier scenarios, i.e., the normal reflection (NR), retro-reflection (RR), normal transmission (NT), and specular transmission (ST).For the step potential with electrons incident from the large wavevector, the transmission is primarily governed by NT with nearly negligible ST, while the reflection is dominant by RR (NR) within (outside) the critical angle. Additionally, for electrons incident from the small wavevector, the NT can be reduced to zero by adjusting the barrier, resulting in a significant enhancement of ST and RR. For the rectangular barrier, the transmission and reflection spectra resemble those of the step barrier, but there are two kinds of resonant tunneling which can lead to perfect NT or ST. There exists a negative differential conductance (NDC) effect in the conductance spectrum. The conductance and the peak-to-valley ratio of the NDC effect can be effectively controlled by adjusting the height and width of the barrier as well as the incident energy. Our results provide a deeper understanding of the electron states governed by the Mexican-hat dispersion., Comment: 8 pages, 5 figures

Published
2024

2. QACP: An Annotated Question Answering Dataset for Assisting Chinese Python Programming Learners

Author

Xiao, Rui, Han, Lu, Zhou, Xiaoying, Wang, Jiong, Zong, Na, and Zhang, Pengyu

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Human-Computer Interaction
Abstract

In online learning platforms, particularly in rapidly growing computer programming courses, addressing the thousands of students' learning queries requires considerable human cost. The creation of intelligent assistant large language models (LLMs) tailored for programming education necessitates distinct data support. However, in real application scenarios, the data resources for training such LLMs are relatively scarce. Therefore, to address the data scarcity in intelligent educational systems for programming, this paper proposes a new Chinese question-and-answer dataset for Python learners. To ensure the authenticity and reliability of the sources of the questions, we collected questions from actual student questions and categorized them according to various dimensions such as the type of questions and the type of learners. This annotation principle is designed to enhance the effectiveness and quality of online programming education, providing a solid data foundation for developing the programming teaching assists (TA). Furthermore, we conducted comprehensive evaluations of various LLMs proficient in processing and generating Chinese content, highlighting the potential limitations of general LLMs as intelligent teaching assistants in computer programming courses.

Published
2024

25. Anisotropic magneto-optical absorption and linear dichroism in two-dimensional semi-Dirac electron systems

Author

Zhou, Xiaoying, Chen, Wang, and Zhu, Xianzhe

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present a theoretical study on the Landau levels (LLs) and magneto-optical absorption of a two-dimensional semi-Dirac electron system under a perpendicular magnetic field. Based on an effective k.p Hamiltonian, we find that the LLs are proportional to the two-thirds power law of the magnetic field and level index, which can be understood as a hybridization of the LL of Schrodinger and Dirac electrons with new features. With the help of Kubo formula, we find the selection rule for interband (intraband) magneto-optical transition is anisotropic (isotropic). Specifically, the selection rules for interband magneto-optical transitions are $\Delta n$=0, $\pm2$ ($\pm2$, $\pm4$) for linearly polarized light along the linear (parabolic) dispersion direction, while the selection rules for the intraband transition are $\Delta n$=$\pm1$, $\pm3$ regardless of the polarization direction of the light. Further, the magneto-optical conductivity for interband (intraband) transition excited by linearly polarized light along the linear dispersion direction is two (one) orders of magnitude larger than that along the parabolic dispersion direction. This anisotropic magneto-optical absorption spectrum clearly reflects the structure of the LLs, and results in a strong linear dichroism. Importantly, a perfect linear dichroism with magnetic-field tunable wavelength can be achieved by using the interband transition between the two lowest LLs, i.e, from Ev0 to Ec0. Our results shed light on the magneto-optical property of the two dimensional semi-Dirac electron systems and pave the way to design magnetically controlled optical devices., Comment: 8 pages, 5 figures

Published
2021
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32. Exercise is the Foundation of Weight Loss

Author

WANG Qianqian, WANG Xiaohang, ZHOU Xiaoying, QIU Shanhu, SUN Zilin

Subjects
obesity, overweight, exercise, exercise therapy, obesity management, reducing, Medicine
Abstract

The prevalence of overweight and obesity has been increasing yearly and become a global public health problem with a range of consequences causing widespread concern. Weight loss can reduce the incidence of type 2 diabetes, cardiovascular risk, and all-cause mortality. The most common approaches of weight loss are drug therapy, surgery and lifestyle interventions including diet and exercise, however, exercise intervention remains the healthiest and most fundamental approach of weight loss. Exercise can reduce cellulite, increase muscle mass and improve metabolism. The combination of exercise and other weight loss approaches can reduce adverse reactions and produce better results. Continuing exercise after weight loss can also effectively prevent rebound and maintain weight loss effects. This paper reviews the definition, mechanism, effect, and management of "exercise is the foundation of weight loss", and provide a reference for weight loss through exercise in the context of the experience of Zhongda Hospital.

Published
2023
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33. Loss of ACOX1 in clear cell renal cell carcinoma and its correlation with clinical features

Author

Mo Yingxi, Zhao Jun, Zhao Ran, Huang Yiying, Liang Ziyuan, Zhou Xiaoying, Chu Jiemei, Pan Xinli, Duan Siyu, Chen Shiman, Mo Liufang, Huang Bizhou, Huang Zhaozhang, Wei Jiale, Zheng Qian, and Luo Wenqi

Subjects
clear cell renal cell carcinoma, acox1, mir-16-5p, bioinformatics, Biology (General), QH301-705.5
Abstract

Clear cell renal cell carcinoma (ccRCC) is a major pathological type of kidney cancer with a poor prognosis due to a lack of biomarkers for early diagnosis and prognosis prediction of ccRCC. In this study, we investigated the aberrant expression of Acyl-coenzyme A oxidase 1 (ACOX1) in ccRCC and evaluated its potential in diagnosis and prognosis. ACOX1 is the first rate-limiting enzyme in the peroxidation β-oxidation pathway and is involved in the regulation of fatty acid oxidative catabolism. The mRNA and protein levels of ACOX1 were significantly downregulated in ccRCC, and its downregulation was closely associated with the tumor-node-metastasis stage of patients. The ROC curves showed that ACOX1 possesses a high diagnostic value for ccRCC. The OS analysis suggested that lower expression of ACOX1 was closely related to the worse outcome of patients. In addition, gene set enrichment analysis suggested that expression of ACOX1 was positively correlated with CDH1, CDH2, CDKL2, and EPCAM, while negatively correlated with MMP9 and VIM, which strongly indicated that ACOX1 may inhibit the invasion and migration of ccRCC by reversing epithelial-mesenchymal transition. Furthermore, we screened out that miR-16-5p is upregulated at the mRNA transcript level in ccRCC and negatively correlated with ACOX1. In conclusion, our results showed that ACOX1 is abnormally low expressed in ccRCC, suggesting that it could serve as a diagnostic and prognostic biomarker for ccRCC. Overexpression of miR-16-5p may be responsible for the inactivation of ACOX1.

Published
2023
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40. Power law decay of local density of states oscillations near a line defect in a system with semi-Dirac points

Author

Chen, Wang, Zhu, Xianzhe, Zhou, Xiaoying, and Zhou, Guanghui

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We theoretically study the power-law decay behavior of the local density of states (LDOS) oscillations near a line defect in system with semi-Dirac points by using a low-energy k.p Hamiltonian. We find that the LDOS oscillations are strongly anisotropic and sensitively depend on the orientation of the line defect. We analytically obtain the decay indexes of the LDOS oscillations near a line defect running along different directions by using the stationary phase approximation. Specifically, when the line defect is perpendicular to the linear dispersion direction, the decay index is -5/4 whereas it becomes -1/4 if the system is gapped, both of which are different from the decay index -3/2 in isotropic Dirac systems. In contrast, when the line defect is perpendicular to the parabolic dispersion direction, the decay index is always -1/2 regardless of whether the system is gapped or not, which is the same as that in a conventional semimetal. In general, when the defect runs along an arbitrary direction, the decay index sensitively depends on the incident energy for a certain orientation of the line defect. It varies from -5/4 to -1/2 due to the absence of strict stationary phase point. Our results indicate that the decay index -5/4 provides a fingerprint to identify semi-Dirac points in 2D electron systems., Comment: Published version: 9 Pages, 6 Figures

Published
2021
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41. Edge and sublayer degrees of freedom for phosphorene nanoribbons with twofold-degenerate edge bands via electric field

Author

Ren, Yi, Zhou, Xiaoying, and Zhou, Guanghui

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

For the pristine phosphorene nanoribbons (PNRs) with edge states, there exist two categories of edge bands near the Fermi energy (EF), i.e., the shuttle-shaped twofold-degenerate and the near-flat simple degenerate edge bands. However, the usual experimental measurement may not distinguish the difference between the two categories of edge bands. Here we study the varying rule for the edge bands of PNRs under an external electrostatic field. By using the KWANT code based on the tight-binding approach, we find that the twofold-degenerate edge bands can be divided into two separated shuttles until the degeneracy is completely removed and a gap near EFis opened under a sufficiently strong in-plane electric field. Importantly, each shuttle from the ribbon upper or lower edge outmost atoms is identified according to the local density of states. However, under a small off-plane field the shuttle-shaped bands are easily induced into two near-flat bands contributed from the edge atoms of the top and bottom sublayers, respectively. The evidence provides the edge and sublayer degrees of freedom (DOF) for the PNRs with shuttle-shaped edge bands, of which is obviously different from another category PNRs intrinsically with near-flat edge bands. This is because that the former category of ribbons solely have four zigzag-like atomic configurations at the edges in each unit cell, which also results in that the property is robust against the point defect in the ribbon center area. As an application, furthermore, based on this issue we propose a homogenous junction of a shuttle-edge-band PNR attached by two electric gates. Interestingly, the transport property of the junction with field manipulation well reflects the characteristics of the two DOFs. These findings may provide a further understanding on PNRs and initiate new developments in PNR-based electronics.

Published
2021
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42. P-MNER: Cross Modal Correction Fusion Network with Prompt Learning for Multimodal Named Entity Recognition

Author

Wang, Zhuang, Zhang, Yijia, An, Kang, Zhou, Xiaoying, Lu, Mingyu, Lin, Hongfei, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Sun, Maosong, editor, Qin, Bing, editor, Qiu, Xipeng, editor, Jing, Jiang, editor, Han, Xianpei, editor, Rao, Gaoqi, editor, and Chen, Yubo, editor

Published
2023
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44. The Phenomenon of Human Mind Slip in Rapid Writing Chinese Characters

Author

Zhou, Xiaoying

Abstract

The slip-over phenomenon is a very interesting feature in rapid writing Chinese characters, a unique psychological phenomenon in Chinese language. Most of the slip-over characters appear in set phrases. It is just like a walking man, when he is in a hurry he would sometimes run one or two steps. Since most Chinese characters contain radicals, slip-over phenomenon occurs quite frequently. In this paper the author lists four groups of slip-over characters and analyzes their psychological processes. The author holds that this study is useful, in some ways, in their use in computers.

Published
2019

49. Crystallographic Characterization of Black Phosphorene and Its Application in Nanostructures

Author

Ren, Yi, Liu, Pu, Zhou, Benliang, Zhou, Xiaoying, and Zhou, Guanghui

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

The central question in the field of 2D materials is how a material behaves when it is patterned at nanometer scale with different edge geometries. Due to the anisotropy inherent in the puckered structure, black phosphorene nanostructures may have more varieties of edge geometries. Here, we present a comprehensive 2D planar crystallographic characterization of phosphorene uniformly by a chiral vector (angle), from which a new type of edge atomic configuration, the slope edge geometry is discovered. The phosphorene nanoribbons (PNRs) with slope edges, like previously noticed zigzag and skewed-armchair PNRs, also own interesting twofold-degenerate edge states. These three marginal directions, together with the skewed-zigzag and armchair directions without edge states, divide a phosphorene into four regions among which the electronic property is different from each other. Further, for a PNR cutting along any possible direction, by taking into account the z-direction in structure, whether or not it owns edge states depends on the periodic zigzag-like morphology along the edges. Moreover, we propose a PNR-based z-shaped homogenous junction with scale $\sim$100 nm, where the central scattering region between two PNR electrodes is a phosphorene quantum dot (PQD) of PNR segment with various edge morphologies. Interestingly, the calculated conductance of the junction relies sensitively on the central PQD edge states, which exhibits a terrace with resonant oscillations near Fermi energy, otherwise the electron transport is blocked due to the absence of edge states. Remarkably, the number of oscillating peaks exactly matches to the number of sawtooth along an edge of PQD, since the discrete energy levels of the zigzag-like edge provide the transporting channels for electrons. The results here may be extended to the group-VA 2D materials for observing the electronic property of nanostructures.

Published
2019
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50. Air pollution exposure is linked with methylation of immunoregulatory genes, altered immune cell profiles, and increased blood pressure in children.

Author

Prunicki, Mary, Cauwenberghs, Nicholas, Lee, Justin, Zhou, Xiaoying, Movassagh, Hesam, Noth, Elizabeth, Lurmann, Fred, Hammond, S Katharine, Balmes, John R, Desai, Manisha, Wu, Joseph C, and Nadeau, Kari C

Subjects
Clinical Research, Cardiovascular, Climate-Related Exposures and Conditions, Prevention, 2.1 Biological and endogenous factors, Inflammatory and immune system
Abstract

Ambient air pollution exposure is associated with cardiovascular dysregulation and immune system alterations, yet no study has investigated both simultaneously in children. Understanding the multifaceted impacts may provide early clues for clinical intervention prior to actual disease presentation. We therefore determined the associations between exposure to multiple air pollutants and both immunological outcomes (methylation and protein expression of immune cell types associated with immune regulation) and cardiovascular outcomes (blood pressure) in a cohort of school-aged children (6-8 years; n = 221) living in a city with known elevated pollution levels. Exposure to fine particular matter (PM2.5), carbon monoxide (CO), and ozone (O3) was linked to altered methylation of most CpG sites for genes Foxp3, IL-4, IL-10 and IFN-g, all involved in immune regulation (e.g. higher PM2.5 exposure 1 month prior to the study visit was independently associated with methylation of the IL-4 CpG24 site (est = 0.16; P = 0.0095). Also, immune T helper cell types (Th1, Th2 and Th17) were associated with short-term exposure to PM2.5, O3 and CO (e.g. Th1 cells associated with PM2.5 at 30 days: est = - 0.34, P

Published
2021

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