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103,292 results on '"Wei Li"'

1. Imaging half-unit-cell Cooper-pair density waves in monolayer 1T$^{\prime}$-MoTe$_2$

Author

Cheng, Fang-Jun, Lou, Cong-Cong, Chen, Ai-Xi, Wei, Li-Xuan, Liu, Yu, Deng, Bo-Yuan, Li, Fangsen, Wang, Ziqiang, Xue, Qi-Kun, Ma, Xu-Cun, and Song, Can-Li

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

Unconventional superconductors that spontaneously break space-group symmetries of their underlying crystal lattice are distinguished by spatial modulations of the superconducting order parameter. These states have recently captured significant attention in various strongly correlated materials, where the breaking of translational or intra-unit-cell symmetries results in the emergence of pair density waves with wavelengths extending across one or multiple unit cells. Here, we employ a spectroscopic-imaging scanning tunneling microscope to identify robust half-unit-cell modulations of the superconducting gap magnitude, coherence strength and subgap states in tunable 1T$^{\prime}$-MoTe$_2$ monolayer. The modulations are oriented perpendicular to the zigzag Mo chains and coexist with three-unit-cell primary pair density wave modulations along the Mo chains, both of which attenuate with increasing temperature and the application of external magnetic fields. Importantly, we find that the superconductivity modulations are strongly linked to unconventional electron pairing mechanisms, which significantly deviate from the Cooper pairing observed in traditional Bardeen-Cooper-Schrieffer superconductors. Our results advance the knowledge of Cooper-pair density modulations and the intricate interplay with other symmetry-breaking states in strongly correlated superconductors., Comment: 31 pages,4 figures

Published
2024

2. Electromagnetic Normalization of Channel Matrix for Holographic MIMO Communications

Author

Yuan, Shuai S. A., Wei, Li, Chen, Xiaoming, Huang, Chongwen, and Sha, Wei E. I.

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Holographic multiple-input and multiple-output (MIMO) communications introduce innovative antenna array configurations, such as dense arrays and volumetric arrays, which offer notable advantages over conventional planar arrays with half-wavelength element spacing. However, accurately assessing the performance of these new holographic MIMO systems necessitates careful consideration of channel matrix normalization, as it is influenced by array gain, which, in turn, depends on the array topology. Traditional normalization methods may be insufficient for assessing these advanced array topologies, potentially resulting in misleading or inaccurate evaluations. In this study, we propose electromagnetic normalization approaches for the channel matrix that accommodate arbitrary array topologies, drawing on the array gains from analytical, physical, and full-wave methods. Additionally, we introduce a normalization method for near-field MIMO channels based on a rigorous dyadic Green's function approach, which accounts for potential losses of gain at near field. Finally, we perform capacity analyses under quasi-static, ergodic, and near-field conditions, through adopting the proposed normalization techniques. Our findings indicate that channel matrix normalization should reflect the realized gains of the antenna array in target directions. Failing to accurately normalize the channel matrix can result in errors when evaluating the performance limits and benefits of unconventional holographic array topologies, potentially compromising the optimal design of holographic MIMO systems.

Published
2024

3. Origin of nonlinear photocurrents in chiral multifold semimetal CoSi unveiled by terahertz emission spectroscopy

Author

Chan, Yao-Jui, Faizanuddin, Syed Mohammed, Kalaivanan, Raju, Raman, Sankar, Lin, Hsin, Kar, Uddipta, Singh, Akhilesh Kr., Lee, Wei-Li, Vankayala, Ranganayakulu K., Ou, Min-Nan, and Wen, Yu-Chieh

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

Spectroscopic identification of distinct nonlinear photocurrents unveils quantum geometric properties of electron wavefunctions and the momentum-space topological structures. This is especially interesting, but still puzzling, for chiral topological semimetals with possibilities of hosting giant quantized circular photogalvanic effect. Here we report a comprehensive terahertz (THz) emission spectroscopic analysis of nonlinear photoconductivity of chiral multifold CoSi at 0.26 ~ 1 eV. We find a large linear shift conductivity (17 {\mu}A/V2), and confirm a giant injection conductivity (167 {\mu}A/V2) as a consequence of strongly interfered non-quantized contributions from the vicinity of multifold nodes with opposite chiralities. The bulk injection current excited by the pump field with a complex wavevector is shown to carry both longitudinal and transverse components. Symmetry analyses further unveil weak nonlocal photon drag effect in addition to the photogalvanic effect. This work not only highlights chiral transition metal monosilicides for mid-infrared photovoltaic applications via various nonlinear optical channels, but also consolidates the THz spectroscopy for quantitative photovoltaic research.

Published
2024

4. Bridging the Gap: Unpacking the Hidden Challenges in Knowledge Distillation for Online Ranking Systems

Author

Khani, Nikhil, Yang, Shuo, Nath, Aniruddh, Liu, Yang, Abbo, Pendo, Wei, Li, Andrews, Shawn, Kula, Maciej, Kahn, Jarrod, Zhao, Zhe, Hong, Lichan, and Chi, Ed

Subjects
Computer Science - Information Retrieval, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Knowledge Distillation (KD) is a powerful approach for compressing a large model into a smaller, more efficient model, particularly beneficial for latency-sensitive applications like recommender systems. However, current KD research predominantly focuses on Computer Vision (CV) and NLP tasks, overlooking unique data characteristics and challenges inherent to recommender systems. This paper addresses these overlooked challenges, specifically: (1) mitigating data distribution shifts between teacher and student models, (2) efficiently identifying optimal teacher configurations within time and budgetary constraints, and (3) enabling computationally efficient and rapid sharing of teacher labels to support multiple students. We present a robust KD system developed and rigorously evaluated on multiple large-scale personalized video recommendation systems within Google. Our live experiment results demonstrate significant improvements in student model performance while ensuring consistent and reliable generation of high quality teacher labels from a continuous data stream of data.

Published
2024

5. Design and Performance of the ALPS II Regeneration Cavity

Author

Kozlowski, Todd, Wei, Li-Wei, Spector, Aaron D., Hallal, Ayman, Fraedrich, Henry, Brotherton, Daniel C., Oceano, Isabella, Ejlli, Aldo, Grote, Hartmut, Hollis, Harold, Karan, Kanioar, Mueller, Guido, Tanner, D. B., Willke, Benno, and Lindner, Axel

Subjects
Physics - Optics
Abstract

The Regeneration Cavity (RC) is a critical component of the Any Light Particle Search II (ALPS II) experiment. It increases the signal from possible axions and axion-like particles in the experiment by nearly four orders of magnitude. The total round-trip optical losses of the power circulating in the cavity must be minimized in order to maximize the resonant enhancement of the cavity, which is an important figure of merit for ALPS II. Lower optical losses also increase the cavity storage time and with the 123 meter long ALPS II RC we have demonstrated the longest storage time of a two-mirror optical cavity. We measured a storage time of $7.17 \pm 0.01$ ms, equivalent to a linewidth of 44.4 Hz and a finesse of 27,500 at a wavelength of 1064 nm., Comment: 16 pages, 8 figures, 1 table

Published
2024

6. Learned Ranking Function: From Short-term Behavior Predictions to Long-term User Satisfaction

Author

Wu, Yi, Chang, Daryl, She, Jennifer, Zhao, Zhe, Wei, Li, and Heldt, Lukasz

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Information Retrieval
Abstract

We present the Learned Ranking Function (LRF), a system that takes short-term user-item behavior predictions as input and outputs a slate of recommendations that directly optimizes for long-term user satisfaction. Most previous work is based on optimizing the hyperparameters of a heuristic function. We propose to model the problem directly as a slate optimization problem with the objective of maximizing long-term user satisfaction. We also develop a novel constraint optimization algorithm that stabilizes objective trade-offs for multi-objective optimization. We evaluate our approach with live experiments and describe its deployment on YouTube., Comment: RecSys 24

Published
2024

7. Design and Analysis of Cluster Randomized Trials

Author

Wei Li, Yanli Xie, Dung Pham, Nianbo Dong, Jessaca Spybrook, and Benjamin Kelcey

Abstract

Cluster randomized trials (CRTs) are commonly used to evaluate the causal effects of educational interventions, where the entire clusters (e.g., schools) are randomly assigned to treatment or control conditions. This study introduces statistical methods for designing and analyzing two-level (e.g., students nested within schools) and three-level (e.g., students nested within classrooms nested within schools) CRTs. Specifically, we utilize hierarchical linear models (HLMs) to account for the dependency of the intervention participants within the same clusters, estimating the average treatment effects (ATEs) of educational interventions and other effects of interest (e.g., moderator and mediator effects). We demonstrate methods and tools for sample size planning and statistical power analysis. Additionally, we discuss common challenges and potential solutions in the design and analysis phases, including the effects of omitting one level of clustering, non-compliance, heterogeneous variance, blocking, threats to external validity, and cost-effectiveness of the intervention. We conclude with some practical suggestions for CRT design and analysis, along with recommendations for further readings.

Published
2024
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8. Unleashing Digital Superheroes: Unravelling the Empathy Factor in Digital Competence and Online Teacher Autonomy Support

Author

Anni Chen, Wei Li, and Weidong Fu

Abstract

Considerable research has been dedicated to studying teachers' digital competence, yet limited insights have been gained regarding its impact on online teacher autonomy support. Based on the Technological Pedagogical Content Knowledge (TPACK) framework, this study utilized a multiple regression analysis model to explore how teachers' digital competence affects online teacher autonomy support. Drawing on data from 652 Chinese primary school teachers, the study revealed that teachers' digital competence positively influenced online teacher autonomy support via teachers' cognitive empathy. Teachers' emotional empathy strengthened the direct effect of cognitive empathy on online teacher autonomy support, and its indirect effect on teachers' digital competence on online teacher autonomy support. The findings inform TPACK framework development and practical considerations in online teaching, deepening understanding of the impact of digital competence on online teacher autonomy support.

Published
2024
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9. Electromagnetic Information Theory for Holographic MIMO Communications

Author

Wei, Li, Gong, Tierui, Huang, Chongwen, Zhang, Zhaoyang, Sha, Wei E. I., Chen, Zhi Ning, Dai, Linglong, Debbah, Merouane, and Yuen, Chau

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

Holographic multiple-input multiple-output (HMIMO) utilizes a compact antenna array to form a nearly continuous aperture, thereby enhancing higher capacity and more flexible configurations compared with conventional MIMO systems, making it attractive in current scientific research. Key questions naturally arise regarding the potential of HMIMO to surpass Shannon's theoretical limits and how far its capabilities can be extended. However, the traditional Shannon information theory falls short in addressing these inquiries because it only focuses on the information itself while neglecting the underlying carrier, electromagnetic (EM) waves, and environmental interactions. To fill up the gap between the theoretical analysis and the practical application for HMIMO systems, we introduce electromagnetic information theory (EIT) in this paper. This paper begins by laying the foundation for HMIMO-oriented EIT, encompassing EM wave equations and communication regions. In the context of HMIMO systems, the resultant physical limitations are presented, involving Chu's limit, Harrington's limit, Hannan's limit, and the evaluation of coupling effects. Field sampling and HMIMO-assisted oversampling are also discussed to guide the optimal HMIMO design within the EIT framework. To comprehensively depict the EM-compliant propagation process, we present the approximate and exact channel modeling approaches in near-/far-field zones. Furthermore, we discuss both traditional Shannon's information theory, employing the probabilistic method, and Kolmogorov information theory, utilizing the functional analysis, for HMIMO-oriented EIT systems.

Published
2024

10. LogoMotion: Visually Grounded Code Generation for Content-Aware Animation

Author

Liu, Vivian, Kazi, Rubaiat Habib, Wei, Li-Yi, Fisher, Matthew, Langlois, Timothy, Walker, Seth, and Chilton, Lydia

Subjects
Computer Science - Human-Computer Interaction
Abstract

Animated logos are a compelling and ubiquitous way individuals and brands represent themselves online. Manually authoring these logos can require significant artistic skill and effort. To help novice designers animate logos, design tools currently offer templates and animation presets. However, these solutions can be limited in their expressive range. Large language models have the potential to help novice designers create animated logos by generating animation code that is tailored to their content. In this paper, we introduce LogoMotion, an LLM-based system that takes in a layered document and generates animated logos through visually-grounded program synthesis. We introduce techniques to create an HTML representation of a canvas, identify primary and secondary elements, synthesize animation code, and visually debug animation errors. When compared with an industry standard tool, we find that LogoMotion produces animations that are more content-aware and are on par in terms of quality. We conclude with a discussion of the implications of LLM-generated animation for motion design.

Published
2024

11. A Joint Communication and Computation Design for Distributed RISs Assisted Probabilistic Semantic Communication in IIoT

Author

Zhao, Zhouxiang, Yang, Zhaohui, Huang, Chongwen, Wei, Li, Yang, Qianqian, Zhong, Caijun, Xu, Wei, and Zhang, Zhaoyang

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

In this paper, the problem of spectral-efficient communication and computation resource allocation for distributed reconfigurable intelligent surfaces (RISs) assisted probabilistic semantic communication (PSC) in industrial Internet-of-Things (IIoT) is investigated. In the considered model, multiple RISs are deployed to serve multiple users, while PSC adopts compute-then-transmit protocol to reduce the transmission data size. To support high-rate transmission, the semantic compression ratio, transmit power allocation, and distributed RISs deployment must be jointly considered. This joint communication and computation problem is formulated as an optimization problem whose goal is to maximize the sum semantic-aware transmission rate of the system under total transmit power, phase shift, RIS-user association, and semantic compression ratio constraints. To solve this problem, a many-to-many matching scheme is proposed to solve the RIS-user association subproblem, the semantic compression ratio subproblem is addressed following greedy policy, while the phase shift of RIS can be optimized using the tensor based beamforming. Numerical results verify the superiority of the proposed algorithm.

Published
2024

12. Compositional Neural Textures

Author

Tu, Peihan, Wei, Li-Yi, and Zwicker, Matthias

Subjects
Computer Science - Graphics, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Texture plays a vital role in enhancing visual richness in both real photographs and computer-generated imagery. However, the process of editing textures often involves laborious and repetitive manual adjustments of textons, which are the recurring local patterns that characterize textures. This work introduces a fully unsupervised approach for representing textures using a compositional neural model that captures individual textons. We represent each texton as a 2D Gaussian function whose spatial support approximates its shape, and an associated feature that encodes its detailed appearance. By modeling a texture as a discrete composition of Gaussian textons, the representation offers both expressiveness and ease of editing. Textures can be edited by modifying the compositional Gaussians within the latent space, and new textures can be efficiently synthesized by feeding the modified Gaussians through a generator network in a feed-forward manner. This approach enables a wide range of applications, including transferring appearance from an image texture to another image, diversifying textures,texture interpolation, revealing/modifying texture variations, edit propagation, texture animation, and direct texton manipulation. The proposed approach contributes to advancing texture analysis, modeling, and editing techniques, and opens up new possibilities for creating visually appealing images with controllable textures., Comment: Project page: https://phtu-cs.github.io/cnt-siga24/

Published
2024
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20. Quantum spin driven Yu-Shiba-Rusinov multiplets and fermion-parity-preserving phase transition in K$_3$C$_{60}$

Author

Wang, Shu-Ze, Yu, Xue-Qing, Wei, Li-Xuan, Wang, Li, Cheng, Qiang-Jun, Peng, Kun, Cheng, Fang-Jun, Liu, Yu, Li, Fang-Sen, Ma, Xu-Cun, Xue, Qi-Kun, and Song, Can-Li

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

Magnetic impurities in superconductors are of increasing interest due to emergent Yu-Shiba-Rusinov (YSR) states and Majorana zero modes for fault-tolerant quantum computation. However, a direct relationship between the YSR multiple states and magnetic anisotropy splitting of quantum impurity spins remains poorly characterized. By using scanning tunneling microscopy, we resolve systematically individual transition-metal (Fe, Cr and Ni) impurities induced YSR multiplets as well as their Zeeman effects in K$_3$C$_{60}$ superconductor. The YSR multiplets show identical $d$ orbital-like wave functions that are symmetry-mismatched to the threefold K$_3$C$_{60}$(111) host surface, breaking point-group symmetries of the spatial distribution of YSR bound states in real space. Remarkably, we identify an unprecedented fermion-parity-preserving quantum phase transition between ground states with opposite signs of the uniaxial magnetic anisotropy that can be manipulated by an external magnetic field. These findings can be readily understood in terms of anisotropy splitting of quantum impurity spins, and thus elucidate the intricate interplay between the magnetic anisotropy and YSR multiplets., Comment: 38 pages, 4 figures in the main text

Published
2024
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21. Near-Field Channel Modeling for Holographic MIMO Communications

Author

Gong, Tierui, Wei, Li, Huang, Chongwen, Alexandropoulos, George C., Debbah, Mérouane, and Yuen, Chau

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Information Theory
Abstract

Empowered by the latest progress on innovative metamaterials/metasurfaces and advanced antenna technologies, holographic multiple-input multiple-output (H-MIMO) emerges as a promising technology to fulfill the extreme goals of the sixth-generation (6G) wireless networks. The antenna arrays utilized in H-MIMO comprise massive (possibly to extreme extent) numbers of antenna elements, densely spaced less than half-a-wavelength and integrated into a compact space, realizing an almost continuous aperture. Thanks to the expected low cost, size, weight, and power consumption, such apertures are expected to be largely fabricated for near-field communications. In addition, the physical features of H-MIMO enable manipulations directly on the electromagnetic (EM) wave domain and spatial multiplexing. To fully leverage this potential, near-field H-MIMO channel modeling, especially from the EM perspective, is of paramount significance. In this article, we overview near-field H-MIMO channel models elaborating on the various modeling categories and respective features, as well as their challenges and evaluation criteria. We also present EM-domain channel models that address the inherit computational and measurement complexities. Finally, the article is concluded with a set of future research directions on the topic., Comment: double column, 9 pages, 3 figures, 2 tables, accepted by IEEE Wireless Communications Magazine

Published
2024
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22. Low-Complexity Beam Training for Multi-RIS-Assisted Multi-User Communications

Author

Xu, Yuan, Huang, Chongwen, Wei, Li, Yang, Zhaohui, Chen, Xiaoming, Zhang, Zhaoyang, Yuen, Chau, and Debbah, Mérouane

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

In this paper, we investigate the beam training problem in the multi-user millimeter wave (mmWave) communication system, where multiple reconfigurable intelligent surfaces (RISs) are deployed to improve the coverage and the achievable rate. However, existing beam training techniques in mmWave systems suffer from the high complexity (i.e., exponential order) and low identification accuracy. To address these problems, we propose a novel hashing multi-arm beam (HMB) training scheme that reduces the training complexity to the logarithmic order with the high accuracy. Specifically, we first design a generation mechanism for HMB codebooks. Then, we propose a demultiplexing algorithm based on the soft decision to distinguish signals from different RIS reflective links. Finally, we utilize a multi-round voting mechanism to align the beams. Simulation results show that the proposed HMB training scheme enables simultaneous training for multiple RISs and multiple users, and reduces the beam training overhead to the logarithmic level. Moreover, it also shows that our proposed scheme can significantly improve the identification accuracy by at least 20% compared to existing beam training techniques.

Published
2024

23. Hashing Beam Training for Near-Field Communications

Author

Xu, Yuan, Wei, Li, Huang, Chongwen, Zhu, Chen, Yang, Zhaohui, Yang, Jun, He, Jiguang, Zhang, Zhaoyang, and Debbah, Mérouane

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

In this paper, we investigate the millimeter-wave (mmWave) near-field beam training problem to find the correct beam direction. In order to address the high complexity and low identification accuracy of existing beam training techniques, we propose an efficient hashing multi-arm beam (HMB) training scheme for the near-field scenario. Specifically, we first design a set of sparse bases based on the polar domain sparsity of the near-field channel. Then, the random hash functions are chosen to construct the near-field multi-arm beam training codebook. Each multi-arm beam codeword is scanned in a time slot until all the predefined codewords are traversed. Finally, the soft decision and voting methods are applied to distinguish the signal from different base stations and obtain correctly aligned beams. Simulation results show that our proposed near-field HMB training method can reduce the beam training overhead to the logarithmic level, and achieve 96.4% identification accuracy of exhaustive beam training. Moreover, we also verify applicability under the far-field scenario., Comment: arXiv admin note: text overlap with arXiv:2402.04913

Published
2024

24. Stochastic Geometry Analysis for Distributed RISs-Assisted mmWave Communications

Author

Xu, Yuan, Wei, Li, Huang, Chongwen, Zhu, Yongxu, Yang, Zhaohui, Yang, Jun, He, Jiguang, Zhang, Zhaoyang, and Debbah, Mérouane

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

Millimeter wave (mmWave) has attracted considerable attention due to its wide bandwidth and high frequency. However, it is highly susceptible to blockages, resulting in significant degradation of the coverage and the sum rate. A promising approach is deploying distributed reconfigurable intelligent surfaces (RISs), which can establish extra communication links. In this paper, we investigate the impact of distributed RISs on the coverage probability and the sum rate in mmWave wireless communication systems. Specifically, we first introduce the system model, which includes the blockage, the RIS and the user distribution models, leveraging the Poisson point process. Then, we define the association criterion and derive the conditional coverage probabilities for the two cases of direct association and reflective association through RISs. Finally, we combine the two cases using Campbell's theorem and the total probability theorem to obtain the closed-form expressions for the ergodic coverage probability and the sum rate. Simulation results validate the effectiveness of the proposed analytical approach, demonstrating that the deployment of distributed RISs significantly improves the ergodic coverage probability by 45.4% and the sum rate by over 1.5 times., Comment: arXiv admin note: substantial text overlap with arXiv:2402.06154

Published
2024

25. Why Do Weak-Binding M-N-C Single-Atom Catalysts Possess Anomalously High Oxygen Reduction Activity?

Author

Zhang, Di, She, Fangxin, Chen, Jiaxiang, Wei, Li, and Li, Hao

Subjects
Physics - Chemical Physics
Abstract

Single-atom catalysts (SACs) with metal-nitrogen-carbon (M-N-C) structures are widely recognized as promising candidates in oxygen reduction reactions (ORR). According to the classical Sabatier principle, optimal 3d metal catalysts, such as Fe/Co-N-C, achieve superior catalytic performance due to the moderate binding strength. However, the substantial ORR activity demonstrated by weakly binding M-N-C catalysts such as NiCu-N-C challenges current understandings, emphasizing the need to explore new underlying mechanisms. In this work, we integrated a pH-field coupled microkinetic model with detailed experimental electron state analyses to verify a novel key step in the ORR reaction pathway of weak-binding SACs-the oxygen adsorption at the metal-N bridge site. This step significantly altered the adsorption scaling relations, electric field responses, and solvation effects, further impacting the key kinetic reaction barrier from HOO* to O* and pH-dependent performance. Synchrotron spectra analysis further provides evidence for the new weak-binding M-N-C model, showing an increase in electron density on the anti-bonding pi orbitals of N atoms in weak-binding M-N-C catalysts and confirming the presence of N-O bonds. These findings redefine the understanding of weak-binding M-N-C catalyst behavior, opening up new perspectives for their application in clean energy., Comment: 27 pages, 6 figures

Published
2024

26. Towards the first axion search results of the Any Light Particle Search II experiment

Author

Wei, Li-Wei

Subjects
High Energy Physics - Experiment
Abstract

Any Light Particle Search II (ALPS II) is a dual optical cavity enhanced light-shining-through-a-wall (LSW) experiment at DESY in Hamburg looking for axions and axion-like particles with a target search sensitivity of $g_{a \gamma \gamma}$ down to $2 \times 10^{-11}\,\textrm{GeV}^{-1}$ for masses $m_a \leq 0.1\,\textrm{meV}$. Two 120$\,$m long strings of superconducting dipole magnets have been set up, each providing a magnetic field-length product of $560\,\textrm{T}\cdot\textrm{m}$. A resonant optical cavity with a record-worthy storage time of as high as 7$\,$ms has been constructed to encompass one magnet string. During its initial data-taking phase ALPS II will be operated with a simplified optical configuration that facilitates the characterization of the experiment. The first ALPS II science run took place in May/June 2023 and achieved an estimated search sensitivity of $g_{a \gamma \gamma}$ of around $6 \times 10^{-10}\,\textrm{GeV}^{-1}$ for $m_a \leq 0.1\,\textrm{meV}$. Data analysis and further data runs are under way. Final results on axion-photon coupling from the initial science runs of ALPS II are expected in early 2024., Comment: 6 pages, 2 figures, contribution to the proceedings of the XVIII International Conference on Topics in Astroparticle and Underground Physics (TAUP2023)

Published
2024
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27. DrawTalking: Building Interactive Worlds by Sketching and Speaking

Author

Rosenberg, Karl Toby, Kazi, Rubaiat Habib, Wei, Li-Yi, Xia, Haijun, and Perlin, Ken

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Computer Science - Emerging Technologies, Computer Science - Graphics, H.5.2, D.2.2, I.2.7, D.1.7, H.5.1
Abstract

We introduce DrawTalking, an approach to building and controlling interactive worlds by sketching and speaking while telling stories. It emphasizes user control and flexibility, and gives programming-like capability without requiring code. An early open-ended study with our prototype shows that the mechanics resonate and are applicable to many creative-exploratory use cases, with the potential to inspire and inform research in future natural interfaces for creative exploration and authoring., Comment: 25 pages, 27 figures; Matching version accepted at UIST 2024

Published
2024

29. Three-Dimensional Numerical Analysis of the Effect of Subway Interval Tunnel Construction on the Settlement of High Speed Railroad Foundations

Author

Yue, Feng Ming, Wei, Li, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, and Jeon, Han-Yong, editor

Published
2025
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31. Repercussions of Social Media Addiction on Relationship Closeness and Relationship Satisfaction amongst Chinese Undergraduates

Author

Wei, Li-Wei

Abstract

In the current socio-digital epoch, the intricate interplay between social media addiction and its potential ramifications on romantic relationships remains largely enigmatic, especially within specific demographic subsets. This study aims to elucidate the repercussions of social media addiction on love relationship closeness and satisfaction among Chinese undergraduates. A cohort of 583 Chinese undergraduates was meticulously analyzed, encompassing an almost equal gender distribution and spanning across diverse academic ranks and relationship durations. Utilizing the "Social Media Addiction Scale -- Adult Form (SMAS-AF)" and validated scales for assessing relationship intimacy and satisfaction, the research painted a multifaceted picture. Findings revealed a high inclination towards social media addiction (X=4.20), with specific aspects of engagement demonstrating profound agreement among participants. An analytic exploration of the addiction demonstrated a pronounced influence on cognitive faculties and emotional regulation while revealing less consistent challenges in curtailing usage. In the romantic realm, while relationship closeness yielded a moderate mean score of 3.38, love relationship satisfaction signaled a moderate-to-high satisfaction degree (X=3.83). Interestingly, while gender and academic progression remained non-determinants for addiction levels, relationship length emerged as a significant variable. Correlational analyses showcased a stark negative association between social media addiction and relationship closeness (r=-0.491) but, surprisingly, a positive correlation with relationship satisfaction (r=0.129). Such dichotomous outcomes advocate for deeper investigation, perhaps suggesting a paradigm wherein intensified digital engagement might enhance superficial relationship contentment at the potential cost of depth and closeness.

Published
2023

32. Mixed-Method Analysis of Predisposing Factors Associated with Thesis-Writing Burnout amongst Chinese Postgraduates

Author

Wei, Li-Wei

Abstract

This mixed-method analysis investigates thesis-writing burnout among 117 Chinese postgraduates, probing the patterns, magnitude, and influencing factors. A measurable burnout trend emerges across thesis-writing stages - Thesis-Writing Proposal (TTP), Thesis-Writing 3-Chapter (TW3C), and Thesis-Writing 5-Chapter (TW5C) - peaking (X=4.41) during TW3C, reflecting heightened exhaustion and cynicism. Notably, burnout varies with demographic attributes, specifically gender and marital status. Concurrently, exhaustion and cynicism levels fluctuate with thesis-writing progression, while professional efficacy gradually escalates. Participants convey a shift from profound exhaustion and cynicism in TTP and TW3C stages to resilience, manageable fatigue, and self-assuredness during TW5C. Predisposing factors encompass uncertainty, anxiety, and advisory attributes, spanning styles, diligence, and personality traits. These aspects, especially autocratic and laissez-faire approaches, exacerbate stress and impact motivation and research methods. These findings underscore the multifaceted nature of academic burnout during thesis-writing among Chinese postgraduates, necessitating stage-specific interventions. Such tailored strategies facilitate burnout prevention, promote thesis completion, and yield profound implications for Chinese conventional postgraduate education. The research also establishes the vital role of advisors in modulating stress levels, underscoring the need for proactive support measures and fostering a conducive academic environment. This study augments understanding of academic burnout, offering valuable insights to counteract its detrimental effects and bolster postgraduate students' academic journey.

Published
2023

33. Quantitative Method to Explore the Critical Issues of Speaking Anxiety amongst Chinese PhD Candidates' Doctoral Dissertation Oral Defense

Author

Wei, Li-Wei and Chang, Chuan-Chi

Abstract

Anxiety has a significant effect on oral communication, particularly when it occurs in the form of a public address. The quality of a public academic speaker's oral presentation may highly be determined by a variety of emotive elements. However, this has received much too little attention in the realm of academic dissertation oral defense presentations, despite the fact that this process may be incredibly nerve-wracking for both novice and experienced postgraduates, EFL learners in particular. In the current study, 68 Chinese EFL Ph.D. candidates consented to complete a revamped version of the Personal Report of Public Speaking Anxiety (PRPSA). Chinese EFL postgraduates reported an average high level of public speaking anxiety (X=4.34) during their doctoral dissertation defense presentations, as measured by three categorical variables: public speaking apprehension (X=4.40), self-behavior management (X=4.35), and fear of negative evaluation (X=4.26). Throughout Ph.D. candidate participants' dissertation defense, fifteen anxiety-related questionnaire items were recognized to be the most anxiety-provoking conditions in terms of public speaking anxiety. In addition, differences in gender and graduate study specialization were not significantly associated with Chinese EFL Ph.D. candidates' experiences with public speaking anxiety. Despite the findings, research has revealed that Ph.D. candidates in English as a Foreign Language from China exhibit statistically significant levels of anxiety related to public speaking, and as a result, pedagogical recommendations have been proposed.

Published
2023

34. Mixed-Method Report into Chinese Postgraduates' Procrastination Behavior, Academic Engagement and Self-Confidence

Author

Wei, Li-Wei, Jaisook, Napawan, Zhao, Fei, Li, Manhua, Yang, Chaoqiao, and Zhang, Lu

Abstract

In this mixed-method investigation, the researchers delved into the intricate dynamics underlying Chinese postgraduates' procrastination behavior, academic engagement, and self-confidence, unveiling a multifaceted interplay among these factors. Quantitative findings revealed an intermediate-high level of procrastination, particularly in relation to writing assignments, exam preparations, and weekly reading tasks, while attendance tasks and general school activities elicited lower procrastination levels. Further analysis elucidated a substantial negative correlation between procrastination behaviors and both academic engagement and self-confidence, indicating the pernicious influence of this pervasive phenomenon on students' academic experiences. Qualitative insights garnered through thematic analysis explicated the complex reasons behind procrastination, including being overwhelmed by intricate tasks, lack of genuine interest, competitive milieu, insecurities, distractions, cultural and familial pressures, and struggles with time management, prioritization, and perfectionism. Furthermore, inadequate mentorship and anxiety surrounding future career prospects emerged as significant contributors to procrastination. Evidently, this detrimental factor not only impeded postgraduates' academic immersion but also eroded their self-confidence, exacerbating the detrimental repercussions on their scholarly performance. Thus, the findings underscore the imperative for targeted interventions, encompassing mentorship, time management skills, and emotional support, to mitigate the deleterious effects of procrastination on Chinese postgraduates' academic engagement and self-confidence.

Published
2023

35. Needs Assessment Report Adopting a Mixed-Method Design: Chinese Postgraduates' Impressions of Critical Thinking Approach in Research Method Course

Author

Wei, Li-Wei

Abstract

In the contemporary milieu of academia and quotidian endeavors, the faculty of critical thinking is recognized as an essential and irreplaceable aptitude for each individual. Over the course of recent decades, the subject of critical thinking has garnered substantial attention across the sphere of higher education, with Chinese students being no exception. The present investigation seeks to elucidate the exigencies evaluation of international Chinese postgraduate students' perceptions pertaining to the incorporation of critical thinking methodologies within research methods coursework, in conjunction with their requisites and expectations for the inculcation of critical thinking proficiencies as an integral constituent of the academic writing curriculum. This empirical inquiry, employing a mixed-methods approach, drew upon the Critical Thinking Disposition Inventory (CTDI) as its primary instrument. A total of 147 Chinese international college master's students voluntarily partook in the study. The resultant data revealed that the understanding of critical thinking abilities among the overseas Chinese postgraduate population was marked by ambiguity and perplexity. Such a phenomenon can be attributed to the influence of the traditional Chinese educational system, which engenders a prevalent indifference towards critical thinking competencies among the majority of the international Chinese postgraduate demographic. To address the exigency of bolstering their scholastic achievements and enhancing their thesis-writing efficacy through more analytical and critical means, the Chinese postgraduate respondents underscored the imperative to amalgamate critical thinking skills into their research methods coursework.

Published
2023

36. Interdisciplinary and Project-Based Service Learning for Smart and Connected Communities: Insights from ENDEAVR

Author

Wei Li, Jiahe Bian, Chanam Lee, Anatol Bologan, Theodora Chaspari, Tyrene Calvesbert, Jaimie Masterson, Jacqueline Stillisano, Kim Wright, Samantha Shields, and Debra Fowler

Abstract

Higher education institutions are increasingly interested in innovative pedagogies that offer hands-on, project-based learning experiences in interdisciplinary settings and enable students to address real-world challenges with emerging technologies. To address this demand, a team of educators, in collaboration with community and industry partners, created an interdisciplinary and project-based service-learning program named Envisioning the Neo-traditional Development by Embracing the Autonomous Vehicles Realm (ENDEAVR). The team piloted the program during the 2019-2020 academic year. Program evaluation was conducted using both pre-post surveys and focus groups centered on the program's impact on students' critical thinking and problem-solving skills. This article summarizes key lessons, challenges and experiences from the pilot program, and shares insights on curriculum design and program implementation.

Published
2023

37. Leveraging Read-Aloud Instructional Strategy (RAIS) for Enhancing English Reading Fluency, Anxiety, and Confidence of EFL Chinese Undergraduates: A Quasi-Experimental Multi-Group Design

Author

Wei, Li-Wei

Abstract

The perennial challenge of reading fluency, notably profound among Asian EFL learners, stems largely from linguistic disparities, conventional teaching paradigms, and ingrained cognitive practices. This study critically investigates the challenges Chinese undergraduates face with English reading fluency, notably due to linguistic disparities and historically rooted teaching methodologies. Leveraging the Read-Aloud Instructional Strategy (RAIS), this quasi-experimental study sampled 73 students from a private university in Thailand. Baseline assessments depicted similar fluency levels across groups. Post-intervention, the instructor-centered approach demonstrated profound efficacy, with the mean fluency score soaring to 4.35, compared to the student-centered mean of 2.69 and the near-static comparison group at 2.04. Additionally, confidence metrics evinced a remarkable ascent to 3.46 for the instructor-led group, a notable rise to 2.19 for the student-centered cohort, juxtaposed against the comparison group's minimal shift to 1.71. Furthermore, the instructor-centered method substantially ameliorated reading anxiety (d=1.378) and showcased stronger, albeit weak to moderate, post-intervention correlations between fluency, confidence, and anxiety. This comprehensive study underscores the transformative potential of RAIS, particularly the instructor-centered paradigm, in concurrently augmenting reading fluency, confidence, and reducing anxiety among Chinese EFL undergraduates. The implications herein suggest the exigency of reassessing prevalent pedagogical methodologies in Asian EFL environments.

Published
2023

41. Neoadjuvant chemotherapy with or without camrelizumab in resectable esophageal squamous cell carcinoma: the randomized phase 3 ESCORT-NEO/NCCES01 trial

Author

Qin, Jianjun, Xue, Liyan, Hao, Anlin, Guo, Xiaofeng, Jiang, Tao, Ni, Yunfeng, Liu, Shuoyan, Chen, Yujie, Jiang, Hongjing, Zhang, Chen, Kang, Mingqiang, Lin, Jihong, Li, Hecheng, Li, Chengqiang, Tian, Hui, Li, Lin, Fu, Junke, Zhang, Yong, Ma, Jianqun, Wang, Xiaoyuan, Fu, Maoyong, Yang, Hao, Yang, Zhaoyang, Han, Yongtao, Chen, Longqi, Tan, Lijie, Dai, Tianyang, Liao, Yongde, Zhang, Weiguo, Li, Bin, Chen, Qixun, Guo, Shiping, Qi, Yu, Wei, Li, Li, Zhigang, Tian, Ziqiang, Kang, Xiaozheng, Zhang, Ruixiang, Li, Yong, Wang, Zhen, Chen, Xiankai, Hou, Zhiguo, Zheng, Rongrong, Zhu, Wenqing, He, Jie, and Li, Yin

Published
2024
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46. Machine learning of (1+1)-dimensional directed percolation based on raw and shuffled configurations

Author

Jianmin, Shen, Shanshan, Wang, Wei, Li, Dian, Xu, Yuxiang, Yang, Yanyang, Wang, Feng, Gao, Yueying, Zhu, and Kui, Tuo

Subjects
Physics - Computational Physics, Condensed Matter - Disordered Systems and Neural Networks
Abstract

Machine learning (ML) can process large sets of data generated from complex systems, which is ideal for classification tasks as often appeared in critical phenomena. Meanwhile ML techniques have been found effective in detecting critical points, or in a broader sense phase separation, and extracting critical exponents. But there are still many unsolved issues with the ML, one of which is the meaning of hidden variables of unsupervised learning. Some say that the hidden variables and the principal component may contain basic information regarding the order parameter of the system of interest, which sounds plausible but lacks evidence. This study aims at searching for evidence supporting the conjecture that the autoencoder's (AE) single latent variable and PCA's first principal component can only serve as signals related to particle density, which happens to be the order parameter of the non-equilibrium DP model. Indeed, in some phase transition (PT) models the order parameter is the particle density, whereas in some PT models it is not. Having conducted a certain degree of random shuffling on the DP configurations, which are then fed to the neural networks as input, we find that AE's single latent variable and PCA's first principal component can indeed represent particle density. It is found that shuffling does affect the size of maximum cluster in the system, which suggests that the second principal component of the PCA is related to the maximal cluster. This has been supported by changes in the correlation length of the transition system with variations in the shuffle ratio., Comment: 18 pages, 15 figures

Published
2023

47. Orbital-angular-momentum dependent speckles for spatial mode sorting and multiplexed data transmission

Author

Ma, Rui, Luo, Ke Hai, Wang, Zhao, He, Jing Song, Zhang, Wei Li, Fan, Dian Yuan, Gomes, Anderson S. L., and Liu, Jun

Subjects
Physics - Optics
Abstract

Characterizing the orbital angular momentum (OAM) of a vortex beam is critically important for OAM-encoded data transfer. However, in typical OAM-based applications where vortex beams transmit through diffusers, the accompanying scattering effect tends to be either deliberately prevented, or characterized and then modulated actively based on complex wavefront shaping and interferometry techniques. Here, we aim to investigate the characteristics of blurred speckles obtained after a vortex beam transmits through a ground glass diffuser. It is theoretically and experimentally demonstrated that a cross-correlation annulus can be identified by implementing the cross-correlation operation between speckle patterns corresponding to vortex beams with different OAM values. Besides, it is worth noting that, the size of the cross-correlation annulus is determined by the absolute value of the topological charge difference between the two corresponding vortex beams. Based on this mechanism, the OAM modes can be easily sorted from the incoherently measured OAM-dependent speckles as well as their cross-correlation. Furthermore, to make full use of the orthogonal feature of the OAM-dependent speckles, demultiplexing of OAM-encoded data transfer is verified using a ground glass diffuser. Both 8-bit grayscale and 24-bit RGB OAM-encoded data transfers are carried out in experiments with superior error rates. We can conclude that the OAM-dependent speckles can be not only utilized as a competitive candidate for the OAM mode sorting function in a simple way but also provide an efficient method for the demultiplexing of OAM-encoded data transfer in a practical application.

Published
2023

48. Noncommutative Stein's maximal spherical means

Author

Wei, Li, Wenjuan, Li, Jie, Liu, and Lian, Wu

Subjects
Mathematics - Functional Analysis, Mathematics - Classical Analysis and ODEs
Abstract

Based on a proper hypothesis on the noncommutative Fourier integral operators, we establish in this paper the strong-type $(p,p)$ (with $2\leq p\leq \infty$) estimates for the operator-valued Stein's maximal spherical means.

Published
2023

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