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34 results on '"Xu, Yifu"'

1. Three-dimensional mapping and electronic origin of large altermagnetic splitting near Fermi level in CrSb

Author

Yang, Guowei, Li, Zhanghuan, Yang, Sai, Li, Jiyuan, Zheng, Hao, Zhu, Weifan, Pan, Ze, Xu, Yifu, Cao, Saizheng, Zhao, Wenxuan, Jana, Anupam, Zhang, Jiawen, Ye, Mao, Song, Yu, Hu, Lun-Hui, Yang, Lexian, Fujii, Jun, Vobornik, Ivana, Shi, Ming, Yuan, Huiqiu, Zhang, Yongjun, Xu, Yuanfeng, and Liu, Yang

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

Recently, a new kind of collinear magnetism, dubbed altermagnetism, has attracted considerable interests. A key characteristic of altermagnet is the momentum-dependent band and spin splitting without net magnetization. However, finding altermagnetic materials with large splitting near the Fermi level, which necessarily requires three-dimensional k-space mapping and is crucial for spintronic applications and emergent phenomena, remains challenging. Here by employing synchrotron-based angle-resolved photoemission spectroscopy (ARPES), spin-resolved ARPES and model calculations, we uncover a large altermagnetic splitting, up to ~1.0 eV, near the Fermi level in CrSb. We verify its bulk-type g-wave altermagnetism through systematic three-dimensional k-space mapping, which unambiguously reveals the altermagnetic symmetry and associated nodal planes. The ARPES results are well captured by density functional theory calculations. Spin-resolved ARPES measurements further verify the spin polarizations of the split bands near Fermi level. In addition, tight-binding model analysis indicates that the large altermagnetic splitting arises from strong third-nearest-neighbor hopping mediated by Sb ions, which breaks both the space-time reversal symmetry and the translational spin-rotation symmetry. The large band/spin splitting near Fermi level in metallic CrSb, together with its high TN (up to 705 K) and simple spin configuration, paves the way for exploring emergent phenomena and spintronic applications based on altermagnets., Comment: The manuscript contains 19 pages, 5 figures and 1 table. The supplementary information contains 15 pages, 13 figures and 5 tables

Published
2024

9. Photonic RF Channelization Applications of Microcombs

Author

Han, Weiwei, Liu, Zhihui, Xu, Yifu, Tan, Mengxi, Huang, Chaoran, Wu, Jiayang, Xu, Kun, Moss, David J., and Xu, Xingyuan

Abstract

In recent decades, microwave photonic channelization techniques have developed significantly. Characterized by low loss, high versatility, large instantaneous bandwidth, and immunity to electromagnetic interference, microwave photonic channelization addresses the requirements of modern radar and electronic warfare for receivers. Microresonator-based optical frequency combs are promising devices for photonic channelized receivers, enabling full advantage of multicarriers, large bandwidths, and accelerating the integration process of microwave photonic channelized receivers. In this paper, we review the research progress and trends in microwave photonic channelization, focusing on schemes that utilize integrated microcombs. We discuss the potential of microcomb-based RF channelization, as well as their challenges and limitations, and provide perspectives for their future development in the context of on-chip silicon-based photonics.

Published
2024
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10. Dual-polarization RF channelizer based on microcombs

Author

Han, Weiwei, primary, LIU, ZHIHUI, additional, XU, YIFU, additional, TAN, MENGXI, additional, LI, Yuhua, additional, Zhu, Xiaotian, additional, Ou, Yanni, additional, YIN, FEIFEI, additional, Morandotti, Roberto, additional, Little, Brent, additional, Chu, Sai Tak, additional, Xu, Xingyuan, additional, Moss, David, additional, and Xu, Kun, additional

Published
2024
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23. Image Decomposition Algorithm for Dual-Energy Computed Tomography via Fully Convolutional Network

Author

Linyuang Wang, Xu Yifu, Jian Chen, Lei Zeng, Jingfang Zhang, and Bin Yan

Subjects
Article Subject, Computer science, Feature vector, Normal Distribution, Image processing, lcsh:Computer applications to medicine. Medical informatics, General Biochemistry, Genetics and Molecular Biology, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Image Processing, Computer-Assisted, Humans, Photons, General Immunology and Microbiology, Basis (linear algebra), Artificial neural network, Phantoms, Imaging, business.industry, Applied Mathematics, Deep learning, Dual-Energy Computed Tomography, General Medicine, Noise, Feature (computer vision), 030220 oncology & carcinogenesis, Modeling and Simulation, lcsh:R858-859.7, Artificial intelligence, Tomography, X-Ray Computed, business, Algorithm, Algorithms
Abstract

Background. Dual-energy computed tomography (DECT) has been widely used due to improved substances identification from additional spectral information. The quality of material-specific image produced by DECT attaches great importance to the elaborated design of the basis material decomposition method. Objective. The aim of this work is to develop and validate a data-driven algorithm for the image-based decomposition problem. Methods. A deep neural net, consisting of a fully convolutional net (FCN) and a fully connected net, is proposed to solve the material decomposition problem. The former net extracts the feature representation of input reconstructed images, and the latter net calculates the decomposed basic material coefficients from the joint feature vector. The whole model was trained and tested using a modified clinical dataset. Results. The proposed FCN delivers image with about 60% smaller bias and 70% lower standard deviation than the competing algorithms, suggesting its better material separation capability. Moreover, FCN still yields excellent performance in case of photon noise. Conclusions. Our deep cascaded network features high decomposition accuracies and noise robust property. The experimental results have shown the strong function fitting ability of the deep neural network. Deep learning paradigm could be a promising way to solve the nonlinear problem in DECT.

Published
2018

24. Level set method for image segmentation based on local variance and improved intensity inhomogeneity model

Author

Lei Zeng, Bin Yan, Xu Yifu, Zhongguo Li, and Jian Chen

Subjects
Level set method, business.industry, Gaussian, 0206 medical engineering, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Pattern recognition, 02 engineering and technology, Image segmentation, Real image, 020601 biomedical engineering, symbols.namesake, Computer Science::Computer Vision and Pattern Recognition, Local variance, Signal Processing, 0202 electrical engineering, electronic engineering, information engineering, symbols, 020201 artificial intelligence & image processing, Computer vision, Computer Vision and Pattern Recognition, Artificial intelligence, Electrical and Electronic Engineering, business, Bias field, Software, Mathematics
Abstract

This study proposes an improved level set method for segmenting images with intensity inhomogeneity. One of the improvements is to consider the difference between an original image and an estimated image without bias field in the image model. Apart from using this difference, Gaussian distribution with means and variance is utilised as the local intensity descriptor to map the original image into another domain so the object and the background can be better separated in the transformed domain. Then, an improved level set energy function that combines the image term, local variance, and the above difference is defined. The minimisation of the function can be processed by level set evolution. The proposed method is compared with existing methods, and experiments on both synthetic and real images demonstrate that authors’ method has superior performance.

Published
2016

25. Projection decomposition algorithm for dual-energy computed tomography via deep neural network

Author

Lei Li, Lei Zeng, Bin Yan, Jian Chen, and Xu Yifu

Subjects
Computer science, Signal-To-Noise Ratio, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Decomposition (computer science), Image Processing, Computer-Assisted, Humans, Radiology, Nuclear Medicine and imaging, Electrical and Electronic Engineering, Representation (mathematics), Projection (set theory), Instrumentation, Radiation, Artificial neural network, business.industry, Phantoms, Imaging, Deep learning, Dual-Energy Computed Tomography, Function (mathematics), Condensed Matter Physics, 030220 oncology & carcinogenesis, Artificial intelligence, Neural Networks, Computer, business, Tomography, X-Ray Computed, Algorithm, Energy (signal processing), Algorithms
Abstract

BACKGROUND Dual-energy computed tomography (DECT) has been widely used to improve identification of substances from different spectral information. Decomposition of the mixed test samples into two materials relies on a well-calibrated material decomposition function. OBJECTIVE This work aims to establish and validate a data-driven algorithm for estimation of the decomposition function. METHODS A deep neural network (DNN) consisting of two sub-nets is proposed to solve the projection decomposition problem. The compressing sub-net, substantially a stack auto-encoder (SAE), learns a compact representation of energy spectrum. The decomposing sub-net with a two-layer structure fits the nonlinear transform between energy projection and basic material thickness. RESULTS The proposed DNN not only delivers image with lower standard deviation and higher quality in both simulated and real data, and also yields the best performance in cases mixed with photon noise. Moreover, DNN costs only 0.4 s to generate a decomposition solution of 360 × 512 size scale, which is about 200 times faster than the competing algorithms. CONCLUSIONS The DNN model is applicable to the decomposition tasks with different dual energies. Experimental results demonstrated the strong function fitting ability of DNN. Thus, the Deep learning paradigm provides a promising approach to solve the nonlinear problem in DECT.

Published
2018

34. A study on the community model of future aging in Kaifeng, China

Author

Xu, Yifu

Subjects
Kaifeng (China), China, older people, retirement villages, accommodation, aged care facilities, architecture for the elderly, Continuing Care Retirement Community (CCRC), Chinese architecture, 120101 Architectural Design, 110308 Geriatrics and Gerontology
Abstract

RESEARCH QUESTION: How to use architectural and planning methods to solve the problem of the elderly living for the aged in the future? ABSTRACT: At present, China is facing increasing aging population due to the family planning policy promulgated 30 years ago. This project aims to provide a conceptual planning of an elderly-care community to mitigate the stress of elderly support in Kaifeng. The investigation of the elderly care facilities in Kaifeng revealed that the current elderly support model cannot meet the needs of an increasing number of elderly people in the future. A largerscale elderly support plan needs to be proposed to cope with future problems. Therefore, this research focuses on how to use architectures and planning to solve the problem of housing for the elderly in the future. This planning area of elderly community is named Silver Town and can be regarded as a small city for the elderly. In order to better develop the architectural proposition, first, the development characteristics of nursing homes in China and Western countries in history were compared, and the future nursing home was visualized. In the literature review, the psychological and physical needs of Chinese elderly for nursing homes were studied. Second, during the project design, the Continuing Care Retirement Community model in the US was used for reference, and based on China's national conditions and the psychological and physical characteristics of Chinese elderly, a residential area suitable for the elderly was found, where the elderly can be provided with a familiar and comfortable environment to spend their twilight years. Finally, some architectural precedents were studied, including modern residential areas for the elderly, the layout of residential units and service facilities, and the design of the activity center, hospital, canteen, and food processing plant. Based on the above analysis, the goal is to design a residential area for the elderly that can accommodate about 20,000 elderly people. Silver Town consists of assisted living apartments, independent living apartments, a hospital, and commercial, entertainment and other supporting facilities. The project will reasonably arrange the distance among these functions according to the willingness of the elderly to walk, so that the elderly can enjoy the same services as those for the young, and their feeling of being abandoned by the society due to physical reasons can be eliminated. In addition, the project explored the extensibility of the retirement city and provided a solution to the future expansion of the scale of elderly care.

Published
2020

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