Your search keyword '"Kaihui Chen"' showing total 41 results

1. Versatile SrFeOx for memristive neurons and synapses

Author

Kaihui Chen, Zhen Fan, Jingjing Rao, Wenjie Li, Deming Wang, Changjian Li, Gaokuo Zhong, Ruiqiang Tao, Guo Tian, Minghui Qin, Min Zeng, Xubing Lu, Guofu Zhou, Xingsen Gao, and Jun-Ming Liu

Subjects

Memristors, Artificial synapses, Artificial neurons, Spiking neural network, SrFeOx, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Spiking neural network (SNN) consisting of memristor-based artificial neurons and synapses has emerged as a compact and energy-efficient hardware solution for spatiotemporal information processing. However, it is challenging to develop memristive neurons and synapses based on the same material system because the required resistive switching (RS) characteristics are different. Here, it is shown that SrFeOx (SFO), an intriguing material system exhibiting topotactic phase transformation between insulating brownmillerite (BM) SrFeO2.5 phase and conductive perovskite (PV) SrFeO3 phase, can be engineered into both neuronal and synaptic devices. Using a BM-SFO single layer as the RS medium, the Au/BM-SFO/SrRuO3 (SRO) memristor exhibits nonvolatile RS behavior originating from the formation/rupture of PV-SFO filaments in the BM-SFO matrix. By contrast, using a PV-SFO (matrix)/BM-SFO (interfacial layer) bilayer as the RS medium, the Au/PV-SFO/BM-SFO/SRO memristor exhibits volatile RS behavior originating from the interfacial BM-PV phase transformation. Synaptic and neuronal characteristics are further demonstrated in the Au/BM-SFO/SRO and Au/PV-SFO/BM-SFO/SRO memristors, respectively. Using the SFO-based synapses and neurons, fully memristive SNNs are constructed by simulation, which show good performance on unsupervised image recognition. Our study suggests that SFO is a versatile material platform on which both neuronal and synaptic devices can be developed for constructing fully memristive SNNs.

Published

2022

2. Nonparaxial propagation and the radiation forces of the chirped annular Bessel Gaussian beams

Author

Xiaolin Wu, Yuanqiang Peng, You Wu, Huixin Qiu, Kaihui Chen, Dongmei Deng, and Xiangbo Yang

Subjects

Nonparaxial propagation, Radiation forces, Chirpping, Physics, QC1-999

Abstract

We propose a new class of abruptly autofocusing beams, the chirped annular Bessel Gaussian beams (CABGBs), which are based on the radial Bessel profile. By using the Rayleigh–Sommerfeld diffraction formula, the nonparaxial propagation of the CABGBs is investigated. We find that the initial chirp with negative value tends to intensify the abruptly autofocusing property by shortening the focal length, shrinking the focal spot size, and increasing the peak intensity contrast. The optical trapping effect of the CABGBs acting on a Rayleigh particle is analyzed, and we find that the particle can be stably trapped in three dimensions if the parameters of the CABGBs are appropriate. If the absolute value of the negative chirp increases, the trapping position is shifted toward the input plane, and both the longitudinal and transverse trapping forces rise. A higher magnitude of the radiation forces can be reached if the incident power increases.

Published

2020

3. Abruptly autofocusing polycyclic tornado ring Airy beam

Author

You Wu, Chuangjie Xu, Zejia Lin, Huixin Qiu, Xinming Fu, Kaihui Chen, and Dongmei Deng

Subjects

multi abruptly focuses, multi optical bottles, ring Airy beam, Science, Physics, QC1-999

Abstract

We introduce numerically a new polycyclic tornado ring Airy beam (PTRAB) induced by annular spiral zone phases with the second order chirped factor. The PTRAB has such properties of controllable multi focuses, the multi optical bottles and rotation. By choosing appropriate parameters, we can control the times of the multi autofocus and the autofocusing distance, the size and the number of the OBs, the quantity of the spots and the location where the rotary direction changes from counterclockwise to clockwise. We believe our results have potential applications in laser energy focusing, optical tweezers, optical spanners and manufacturing tunable chiral meta-materials.

Published

2020

4. TSO: Self-Training with Scaled Preference Optimization.

Author

Kaihui Chen, Hao Yi, Qingyang Li, Tianyu Qi, Yulan Hu, Fuzheng Zhang, and Yong Liu 0018

Published

2024

5. Towards Comprehensive Preference Data Collection for Reward Modeling.

Author

Yulan Hu, Qingyang Li, Sheng Ouyang, Ge Chen, Kaihui Chen, Lijun Mei, Xucheng Ye, Fuzheng Zhang, and Yong Liu 0018

Published

2024

6. Performance estimation for the memristor-based computing-in-memory implementation of extremely factorized network for real-time and low-power semantic segmentation.

Author

Shuai Dong, Zhen Fan 0012, Yihong Chen, Kaihui Chen, Minghui Qin, Min Zeng, Xubing Lu, Guofu Zhou, Xingsen Gao, and Jun-Ming Liu

Published

2023

7. A backpropagation with gradient accumulation algorithm capable of tolerating memristor non-idealities for training memristive neural networks.

Author

Shuai Dong, Yihong Chen, Zhen Fan 0012, Kaihui Chen, Minghui Qin, Min Zeng, Xubing Lu, Guofu Zhou, Xingsen Gao, and Jun-Ming Liu

Published

2022

8. A Road Traffic Guidance Service Based on Deep Reinforcement Learning.

Author

Kaihui Chen, Zhihan Liu, Jinglin Li, and Quan Yuan 0004

Published

2019

9. A Traffic Prediction Enabled Double Rewarded Value Iteration Network for Route Planning.

Author

Jinglin Li, Dawei Fu, Quan Yuan 0004, Haohan Zhang, Kaihui Chen, Shu Yang 0003, and Fangchun Yang

Published

2019

10. Predicting Fine-Grained Traffic Conditions via Spatio-Temporal LSTM.

Author

Xiaojuan Wei, Jinglin Li, Quan Yuan 0004, Kaihui Chen, Ao Zhou 0001, and Fangchun Yang

Published

2019

11. Gelatin but not type I collagen promotes bacteria phagocytosis in PMA-treated U937 human lymphoma cells.

Author

Meiling, Li, Yiran, Chen, Xiaoli, Sun, Kaihui, Chen, Toshihiko, Hayashi, Kikuji, Itoh, Kazunori, Mizuno, Hattori, Shunji, Fujisaki, Hitomi, Liu, Weiwei, and Ikejima, Takashi

Subjects

PHAGOCYTOSIS, EXTRACELLULAR matrix, GRAM-negative bacteria, BACTERIA, LYMPHOMAS, COLLAGEN, HEART beat, GELATIN

Abstract

Besides comprising scaffolding, extracellular matrix components modulate many biological processes including inflammation and cell differentiation. We previously found precoating cell plates with extracellular matrix collagen I, or its denatured product gelatin, causes aggregation of macrophage-like human lymphoma U937 cells, which are induced to differentiation by phorbol myristate treatment. In the present study, we investigated the influence of gelatin or collagen I precoating on the bacteria phagocytosis in PMA-stimulated U937 cells. Colony forming units of phagocytosed bacteria, Giemsa-staining of cells with phagocytosed bacteria, confocal microscopic and flow cytometric analysis of cells with phagocytosed FITC-labeled bacteria and non-bioactive latex beats were conducted. Gelatin precoating enhances the phagocytosis of both Gram-negative and positive bacteria, as shown by the increased colony forming units of bacteria phagocytosed by cells, and increased intracellular bacteria observed after Giemsa-staining. But collagen I has no marked influence. Confocal microscopy reveals that both live and dead FITC-bacteria were phagocytosed more in the cells with gelatin-coating but not collagen-coating. Of note, both gelatin and collagen I coating had no influence on the phagocytosis of non-bioactive latex beads. Since gelatin-coating increases autophagy but collagen I has no such impact, we are curious about the role of autophagy. Inhibiting autophagy reduced the phagocytosis of bacteria, in cells with gelatin-coating, while stimulating autophagy enhanced phagocytosis. This study finds the bacteria-phagocytosis stimulatory effect of gelatin in PMA-treated U937 cells and reveals the positive regulatory role of autophagy, predicting the potential use of gelatin products in anti-bacterial therapy. [ABSTRACT FROM AUTHOR]

Published

2024

12. Propagation properties and radiation forces of the chirped Pearcey Gaussian vortex beam in a medium with a parabolic refractive index.

Author

Zejia Lin, You Wu, Huixin Qiu, Xinming Fu, Kaihui Chen, and Dongmei Deng

Published

2021

13. 64‐3: Patterned Glass Diffuser for MiniLED Count Reduction

Author

Xiang-Dong Mi, Donglei Li, Jie Gao, Xiaofei Xu, Haiwei Sun, Lily Jia, Songfeng Han, Chengshuai Li, Kirk R Allen, Wei Yi, Kaihui Chen, James F Lamacchia, Elfren Elvenia, Michael X Ouyang, Tzu-Ling Niu, Guanglei Du, and Horst Schreiber

Subjects

Organic Chemistry, Biochemistry

Published

2022

14. Visible-light-induced Aerobic Epoxidation with Vitamin B2-based Photocatalyst

Author

Duyi Shen, Ting Ren, Zhen Luo, Feiyang Sun, Yun Han, Kaihui Chen, Xuan Zhang, Mengxin Zhou, Peiwei Gong, and Mianran Chao

Subjects

Organic Chemistry, Physical and Theoretical Chemistry, Biochemistry

Abstract

Herein we described a catalytic epoxidation of α,β-enone with peroxide in situ generated via a predominant single electron transfer and a minor energy transfer pathways using inexpensive natural vitamin B2...

Published

2023

15. Y-branch wavelength demultiplexer based on topological valley photonic crystals

Author

Yi Xu, Wen Zhou, Kaihui Chen, and Xuguang Huang

Subjects

Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Published

2022

16. Electronic-structure evolution of SrFeO

Author

Jiali, Zhao, Kaihui, Chen, Shi-En, Li, Qinghua, Zhang, Jia-Ou, Wang, Er-Jia, Guo, Haijie, Qian, Lin, Gu, Tian, Qian, Kurash, Ibrahim, Zhen, Fan, and Haizhong, Guo

Abstract

Oxygen-vacancy-induced topotactic phase transformation between the ABO

Published

2021

17. Generation and control of dynamically tunable circular Pearcey beams with annular spiral-zone phase

Author

Lingling Shui, Hongzhan Liu, Huixin Qiu, You Wu, Kaihui Chen, Zejia Lin, Dongmei Deng, Zhigang Chen, and Haiqi Huang

Subjects

Physics, Superposition principle, Light intensity, Spatial light modulator, Optics, business.industry, Distortion, Phase (waves), Nanophotonics, General Physics and Astronomy, business, Polarization (waves), Structured light

Abstract

Light-field shaping technology plays an important role in optics and nanophotonics. For instance, the spatially structured light field, which exhibits characteristic features in complex phases, light intensity, and polarization, is crucial to understanding new physical phenomena and exploring practical applications. Herein, we propose and demonstrate a new class of tunable circular Pearcey beams (TCPBs) by imposing the annular spiral-zone phase (ASZP). Through experiments, we used a spatial light modulator to generate TCPBs based on their spiral phase distribution, and numerically analyzed the generation and control of the beams with unusual autofocusing and self-rotating dynamics. ASZP is a general term for complex phases composed of the spiral phase, equiphase, and radial phase. TCPB typically exhibits dynamical properties, including abrupt autofocusing, automatic generation of optical bottles, and self-rotation of the beam pattern, during propagation. Besides, the number of generated optical bottles can be modulated by the superposition mode of ASZP and the number of subphases. We found that an inappropriate superposition mode leads to distortion, and we analyzed the underlying mechanism. Potential applications of TCPBs in optical manipulation are also discussed, presenting an exemplary role desired for light-field manipulation.

Published

2021

18. Accelerating trajectory manipulation of symmetric Pearcey Gaussian beam in a uniformly moving parabolic potential

Author

Xin Yu, Huixin Qiu, Dongmei Deng, Chuangjie Xu, Zejia Lin, Kaihui Chen, Xinming Fu, Haiqi Huang, and You Wu

Subjects

Physics, business.industry, Mathematical analysis, Oblique case, 02 engineering and technology, Simple harmonic motion, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, 010309 optics, Superposition principle, Optics, Amplitude, 0103 physical sciences, Modulation (music), Trajectory, Physics::Accelerator Physics, 0210 nano-technology, business, Beam (structure), Gaussian beam

Abstract

We derive analytical solutions that describe the one-dimensional displaced and chirped symmetric Pearcey Gaussian beam in a uniformly moving parabolic potential. The multiple effective manipulations of the beam, which are originated from the diverse configurations of the dynamic parabolic potential, are demonstrated. On the whole, the accelerating trajectory can transform into a linear superposition form of the oblique straight line and the simple harmonic motion. Meanwhile, we discuss the further modulation of the accelerating trajectory characteristics such as slope, amplitude and phase shift. Additionally, the extension into a two-dimensional scenario is also proposed. Our results theoretically improve the practical value of the Pearcey beam, and lead to potential applications in trajectory manipulation and particle manipulation.

Published

2021

19. Symmetric Pearcey Gaussian beams

Author

Zejia Lin, Chuangjie Xu, Lingling Shui, Haiqi Huang, Yujun Liu, Jiajia Zhao, Hongzhan Liu, You Wu, Huixin Qiu, Guanghui Wang, Dongmei Deng, Xinming Fu, Kaihui Chen, and Xiangbo Yang

Subjects

Physics, business.industry, Gaussian, Mathematical analysis, Airy beam, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, Intensity (physics), 010309 optics, symbols.namesake, Optics, Quartic function, 0103 physical sciences, symbols, Focal length, 0210 nano-technology, business, Fresnel diffraction, Beam (structure), Gaussian beam

Abstract

In this Letter, a new, to the best of our knowledge, type of autofocusing and symmetric beam arisen from two quartic spectral phases is introduced in theory and experiment. The symmetric Pearcey Gaussian beam (SPGB), formed with a Gaussian term and two multiplying Pearcey integrals, processes a focusing intensity approximately 1.32 times stronger than the intensity of the symmetric Airy beam. Its four off-axis main lobes split into four bending trajectories symmetrically after focusing. The rectangular intensity distribution and the focal length of the SPGB can be adjusted by two kinds of distribution factors. Additionally, the vortex-guiding property of the beam is demonstrated by embedding an off-axis vortex into the SPGB, which can be applied in particle guiding.

Published

2021

20. A Road Traffic Guidance Service Based on Deep Reinforcement Learning

Author

Quan Yuan, Kaihui Chen, Zhihan Liu, and Jinglin Li

Subjects

Service (business), business.industry, Computer science, media_common.quotation_subject, Deep learning, Cloud computing, law.invention, Transport engineering, Promotion (rank), law, Autopilot, Reinforcement learning, The Internet, Artificial intelligence, business, Road traffic, media_common

Abstract

The development of Internet of vehicle (IOV) and autopilot technology indicates the coming of smart traffic and automatic unmanned era. The promotion of networking and intelligence not only provides a rich source for urban traffic data, but also provides an efficient and direct way to solve urban traffic problems. With the help of deep learning and reinforcement learning technology, we propose a model to mine the urban traffic rule from the travel history of urban travelers, and utilize it achieving better allocation of traffic resources by providing a traffic guidance service, finally realize the system optimal traffic travel.

Published

2020

21. Simulation of the optimal diameter and wall thickness of hollow Fe3O4 microspheres in magnetorheological fluids

Author

Xinglong Gong, Haoming Pang, Lei Pei, Shouhu Xuan, and Kaihui Chen

Subjects

010302 applied physics, Materials science, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Magnetic field, Physics::Fluid Dynamics, Shear rate, Shear (sheet metal), Viscosity, Drag, 0103 physical sciences, Magnetorheological fluid, Shear stress, Composite material, 0210 nano-technology, Dimensionless quantity

Abstract

This work reported a simulation study on the optimal diameter (D) and wall thickness (H) of hollow Fe3O4 microspheres to improve the magnetorheological (MR) effect. Modified formulae for the magnetic dipolar force, van der Waals force, and hydrodynamic drag force were employed in the simulation model. Typical evolution of shear stress and microstructures in steady shear flow was obtained. The shear stress-strain curve was divided into linear, fluctuant, and homeostasis regions, which were related to the inclination of particle chains and the lateral aggregation. For hollow Fe3O4 microspheres with different diameters and wall thicknesses, the shear stress curves collapsed onto a quadratic master curve. The best wall thickness was H = 0.39D for a 20 wt% MR fluid and H = 0.35D for a 40 wt% MR fluid, while the optimal diameter was D = 1000 nm and D = 100 nm, respectively. The maximum shear stress of the 40 wt% MR fluid was twice that of the 20 wt% MR fluid. The change of shear stress was due to the competition that results among the magnetic interaction, number of neighbors, tightness, and orientation of the particle chains. Simulated dimensionless viscosity data as a function of Mason number for various diameters, wall thicknesses, and weight fractions collapsed onto a single master curve. The simulated shear stress under both a magnetic field and shear rate sweep matched well with experiments.

Published

2018

22. Electronic-structure evolution of SrFeO3–x during topotactic phase transformation

Author

Kaihui Chen, Jiali Zhao, Qinghua Zhang, Shi-En Li, Er-Jia Guo, Haijie Qian, Lin Gu, Zhen Fan, Jiaou Wang, Tian Qian, Kurash Ibrahim, and Haizhong Guo

Subjects

X-ray absorption spectroscopy, Work (thermodynamics), Materials science, Oxide, Fermi energy, Electronic structure, Condensed Matter Physics, Catalysis, chemistry.chemical_compound, Transformation (function), chemistry, Chemical physics, Phase (matter), General Materials Science

Abstract

Oxygen-vacancy-induced topotactic phase transformation between the ABO2.5 brownmillerite structure and the ABO3 perovskite structure attracts ever-increasing attention due to the perspective applications in catalysis, clean energy field, and memristors. However, a detailed investigation of the electronic-structure evolution during the topotactic phase transformation for understanding the underlying mechanism is highly desired. In this work, multiple analytical methods were used to explore evolution of the electronic structure of SrFeO3−x thin films during the topotactic phase transformation. The results indicate that the increase in oxygen content induces a new unoccupied state of O 2p character near the Fermi energy, inducing the insulator-to-metal transition. More importantly, the hole states are more likely constrained to the dx 2–y 2 orbital than to the d3z 2–r 2 orbital. Our results reveal an unambiguous evolution of the electronic structure of SrFeO3–x films during topotactic phase transformation, which is crucial not only for fundamental understanding but also for perspective applications such as solid-state oxide fuel cells, catalysts, and memristor devices.

Published

2021

23. Effect of the spectral optical vortices on the chirped ring symmetric Airy beam

Author

Zejia Lin, Jianping Guo, Xinxiang Lai, Chuangjie Xu, Kaihui Chen, Xinming Fu, Haiqi Huang, You Wu, Huixin Qiu, and Dongmei Deng

Subjects

Physics, Ring (mathematics), business.industry, Airy beam, Order (ring theory), Rotation, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Optics, Vortex beam, Electrical and Electronic Engineering, Physical and Theoretical Chemistry, business, Optical vortex, Beam (structure)

Abstract

A new kind of structured open-ends optical bottle (OB) beam generated by the second order chirped ring symmetric Airy vortex beam (CRSAVB) is derived. The optical vortices (OVs) and the chirped factor on the CRSAVB play a significant role on controlling the sizes, quantities and locations of open-ends OBs. The OVs also play an important role on the rotation of the lobe. Additionally, due to the self-healing property of the CRSAVB, this beam has a certain anti-interference. These results bring more potential on improving the application of multi particles manipulation and expand the generation method of multi open-ends OBs.

Published

2021

24. Predicting Fine-Grained Traffic Conditions via Spatio-Temporal LSTM

Author

Jinglin Li, Quan Yuan, Ao Zhou, Fangchun Yang, Xiaojuan Wei, and Kaihui Chen

Subjects

Article Subject, Computer Networks and Communications, Computer science, 02 engineering and technology, computer.software_genre, lcsh:Technology, lcsh:Telecommunication, Traffic volume, lcsh:TK5101-6720, 0502 economics and business, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Intelligent transportation system, 050210 logistics & transportation, business.industry, lcsh:T, 05 social sciences, Traffic conditions, Global Positioning System, 020201 artificial intelligence & image processing, Data mining, business, Scale (map), Focus (optics), computer, Information Systems

Abstract

Predicting traffic conditions for road segments is the prelude of working on intelligent transportation. Many existing methods can be used for short-term or long-term traffic prediction, but they focus more on regions than on road segments. The lack of fine-grained traffic predicting approach hinders the development of ITS. Therefore, MapLSTM, a spatio-temporal long short-term memory network preluded by map-matching, is proposed in this paper to predict fine-grained traffic conditions. MapLSTM first obtains the historical and real-time traffic conditions of road segments via map-matching. Then LSTM is used to predict the conditions of the corresponding road segments in the future. Breaking the single-index forecasting, MapLSTM can predict the vehicle speed, traffic volume, and the travel time in different directions of road segments simultaneously. Experiments confirmed MapLSTM can not only achieve prediction for road segments based a large scale of GPS trajectories effectively but also have higher predicting accuracy than GPR and ConvLSTM. Moreover, we demonstrate that MapLSTM can serve various applications in a lightweight way, such as cognizing driving preferences, learning navigation, and inferring traffic emissions.

Published

2019

25. Autofocusing Pearcey-like vortex beam along a parabolic trajectory

Author

Shihan Hong, Kaihui Chen, Jinhong Wu, Chuangjie Xu, Dongmei Deng, Shangling He, Yingji He, You Wu, Yujun Liu, Huixin Qiu, Libang Chen, Zejia Lin, and Xinming Fu

Subjects

Wavefront, Physics, business.industry, General Mathematics, Applied Mathematics, General Physics and Astronomy, Statistical and Nonlinear Physics, 01 natural sciences, 010305 fluids & plasmas, Optics, Optical tweezers, Position (vector), 0103 physical sciences, Trajectory, Physics::Accelerator Physics, Focus (optics), Parabolic trajectory, business, 010301 acoustics, Phase modulation, Beam (structure)

Abstract

A new type of Pearcey-like vortex beam, generated by the appropriate phase modulation of the optical wavefront, which propagates along a predesigned parabolic trajectory in the free space, is presented. This kind of beam forms several oval closed rings with uneven intensity and focuses along the trajectory. It forms a bending optical bottle (OB) and an off-axis focus. Through setting appropriate parameters, we can adjust the size of the OB and the focus position. Besides, the self-healing property outlines the antijam of the beam. This beam can be appropriately utilized on the optical trapping and the laser energy focusing in a certain degree.

Published

2021

26. Propagation properties and radiation forces of the chirped Pearcey Gaussian vortex beam in a medium with a parabolic refractive index

Author

Xinming Fu, You Wu, Huixin Qiu, Zejia Lin, Dongmei Deng, and Kaihui Chen

Subjects

Physics, Numerical Analysis, business.industry, Applied Mathematics, Gaussian, Fourier optics, Trapping, Radiation, Laser, 01 natural sciences, 010305 fluids & plasmas, law.invention, symbols.namesake, Optics, Fourier transform, Position (vector), law, Modeling and Simulation, 0103 physical sciences, symbols, 010306 general physics, business, Refractive index

Abstract

In our study, an analytical expression of the second order chirped Pearcey Gaussian vortex beam (CPGVB) in a medium with a parabolic refractive index is derived. We demonstrate its propagation behaviors as well as the effects of the parameters on the propagation properties. Expectedly, the CPGVB performs periodically automatic Fourier transform in the specific positions, but unexpectedly the off-axis autofocusing position can be generated and controlled without changing the laser incident angle. Furthermore, we investigate the radiation forces of the CPGVB, and thus notice that trapping positions form in the beam-propagation direction.

Published

2021

27. Nonparaxial propagation and the radiation forces of the chirped annular Bessel Gaussian beams

Author

Kaihui Chen, Xiaolin Wu, Xiangbo Yang, You Wu, Huixin Qiu, Dongmei Deng, and Yuanqiang Peng

Subjects

Physics::Optics, General Physics and Astronomy, 02 engineering and technology, 01 natural sciences, Kirchhoff's diffraction formula, symbols.namesake, Optics, 0103 physical sciences, Chirp, Focal length, Focal Spot Size, Rayleigh scattering, 010302 applied physics, Physics, business.industry, Nonparaxial propagation, Radiation forces, Chirpping, 021001 nanoscience & nanotechnology, lcsh:QC1-999, Transverse plane, Optical tweezers, symbols, 0210 nano-technology, business, lcsh:Physics, Bessel function

Abstract

We propose a new class of abruptly autofocusing beams, the chirped annular Bessel Gaussian beams (CABGBs), which are based on the radial Bessel profile. By using the Rayleigh–Sommerfeld diffraction formula, the nonparaxial propagation of the CABGBs is investigated. We find that the initial chirp with negative value tends to intensify the abruptly autofocusing property by shortening the focal length, shrinking the focal spot size, and increasing the peak intensity contrast. The optical trapping effect of the CABGBs acting on a Rayleigh particle is analyzed, and we find that the particle can be stably trapped in three dimensions if the parameters of the CABGBs are appropriate. If the absolute value of the negative chirp increases, the trapping position is shifted toward the input plane, and both the longitudinal and transverse trapping forces rise. A higher magnitude of the radiation forces can be reached if the incident power increases.

Published

2020

28. Propagation properties and radiation forces of the Hermite–Gaussian vortex beam in a medium with a parabolic refractive index

Author

You Wu, Huixin Qiu, Zejia Lin, Dongmei Deng, Kaihui Chen, Xinming Fu, and Jinhong Wu

Subjects

Physics, Angular momentum, business.industry, 01 natural sciences, Atomic and Molecular Physics, and Optics, Vortex, Computational physics, Intensity (physics), 010309 optics, Optics, Optical tweezers, 0103 physical sciences, Poynting vector, Electrical and Electronic Engineering, business, Engineering (miscellaneous), Refractive index, Topological quantum number, Beam (structure)

Abstract

In this paper, an analytical expression with a triple sum of the Hermite–Gaussian vortex beam (HGVB) propagating in a medium with a parabolic transverse spatial distribution of the refractive index is carried out. The intensity, phase, Poynting vector, and angular momentum of the HGVB are demonstrated analytically. The parabolic parameter, orders of the HGVB, and vortex topological charge affect the propagation properties, respectively. Also, the Poynting vector and angular momentum of the HGVB are shown so that we can further discover the properties. Furthermore, radiation forces are used to demonstrate the optical trapping ability of the HGVB, and several trapping positions are formed by the beam during propagation.

Published

2020

29. Abruptly autofocusing polycyclic tornado ring Airy beam

Author

Kaihui Chen, You Wu, Zejia Lin, Xinming Fu, Dongmei Deng, Chuangjie Xu, and Huixin Qiu

Subjects

Physics, Optics, business.industry, Airy beam, General Physics and Astronomy, Tornado, Ring (chemistry), business

Abstract

We introduce numerically a new polycyclic tornado ring Airy beam (PTRAB) induced by annular spiral zone phases with the second order chirped factor. The PTRAB has such properties of controllable multi focuses, the multi optical bottles and rotation. By choosing appropriate parameters, we can control the times of the multi autofocus and the autofocusing distance, the size and the number of the OBs, the quantity of the spots and the location where the rotary direction changes from counterclockwise to clockwise. We believe our results have potential applications in laser energy focusing, optical tweezers, optical spanners and manufacturing tunable chiral meta-materials.

Published

2020

30. Off‐Axis and Multi Optical Bottles from the Ring Airy Gaussian Vortex Beam with the Astigmatic Phase

Author

Dongmei Deng, Xinming Fu, Kaihui Chen, You Wu, Chuangjie Xu, Huixin Qiu, and Zejia Lin

Subjects

Physics, symbols.namesake, Optics, business.industry, Gaussian, Vortex beam, symbols, Phase (waves), General Physics and Astronomy, business, Ring (chemistry)

Published

2020

31. Simulation of the optimal diameter and wall thickness of hollow Fe

Author

Lei, Pei, Haoming, Pang, Kaihui, Chen, Shouhu, Xuan, and Xinglong, Gong

Abstract

This work reported a simulation study on the optimal diameter (D) and wall thickness (H) of hollow Fe3O4 microspheres to improve the magnetorheological (MR) effect. Modified formulae for the magnetic dipolar force, van der Waals force, and hydrodynamic drag force were employed in the simulation model. Typical evolution of shear stress and microstructures in steady shear flow was obtained. The shear stress-strain curve was divided into linear, fluctuant, and homeostasis regions, which were related to the inclination of particle chains and the lateral aggregation. For hollow Fe3O4 microspheres with different diameters and wall thicknesses, the shear stress curves collapsed onto a quadratic master curve. The best wall thickness was H = 0.39D for a 20 wt% MR fluid and H = 0.35D for a 40 wt% MR fluid, while the optimal diameter was D = 1000 nm and D = 100 nm, respectively. The maximum shear stress of the 40 wt% MR fluid was twice that of the 20 wt% MR fluid. The change of shear stress was due to the competition that results among the magnetic interaction, number of neighbors, tightness, and orientation of the particle chains. Simulated dimensionless viscosity data as a function of Mason number for various diameters, wall thicknesses, and weight fractions collapsed onto a single master curve. The simulated shear stress under both a magnetic field and shear rate sweep matched well with experiments.

Published

2018

32. Research on the Application and the Development of the Glass Concrete in Civil Engineering

Author

Kaihui Chen, Shilong Jia, and Zhongliang Chen

Subjects

Engineering, Development (topology), business.industry, business, Construction engineering

Published

2018

33. Contribution of frictional contact during steady and oscillatory shear in the discontinuous shear thickening fluid

Author

Yu Wang, Xinglong Gong, Shouhu Xuan, Kaihui Chen, and Saisai Cao

Subjects

Dilatant, Oscillatory shear, Materials science, Mechanics of Materials, Signal Processing, General Materials Science, Mechanics, Electrical and Electronic Engineering, Condensed Matter Physics, Microstructure, Atomic and Molecular Physics, and Optics, Civil and Structural Engineering

Published

2019

34. A hybrid molecular dynamics study on the non-Newtonian rheological behaviors of shear thickening fluid

Author

Xinglong Gong, Yu Wang, Kaihui Chen, and Shouhu Xuan

Subjects

Dilatant, Materials science, 010304 chemical physics, 02 engineering and technology, Mechanics, Apparent viscosity, 021001 nanoscience & nanotechnology, 01 natural sciences, Non-Newtonian fluid, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Physics::Fluid Dynamics, Condensed Matter::Soft Condensed Matter, Biomaterials, Shear rate, Shear modulus, Simple shear, Colloid and Surface Chemistry, Classical mechanics, Rheology, 0103 physical sciences, 0210 nano-technology, Shear flow

Abstract

To investigate the microstructural evolution dependency on the apparent viscosity in shear-thickening fluids (STFs), a hybrid mesoscale model combined with stochastic rotation dynamics (SRD) and molecular dynamics (MD) is used. Muller-Plathe reverse perturbation method is adopted to analyze the viscosities of STFs in a two-dimensional model. The characteristic of microstructural evolution of the colloidal suspensions under different shear rate is studied. The effect of diameter of colloidal particles and the phase volume fraction on the shear thickening behavior is investigated. Under low shear rate, the two-atom structure is formed, because of the strong particle attractions in adjacent layers. At higher shear rate, the synergetic pair structure extends to layered structure along flow direction because of the increasing hydrodynamics action. As the shear rate rises continuously, the layered structure rotates and collides with other particles, then turned to be individual particles under extension or curve string structure under compression. Finally, at the highest shear rate, the strings curve more severely and get into two-dimensional cluster. The apparent viscosity of the system changes from shear-thinning behavior to the shear-thickening behavior. This work presents valuable information for further understanding the shear thickening mechanism.

Published

2016

35. Stress relaxation in the transition from shear thinning to shear jamming in shear thickening fluid

Author

Xinglong Gong, Saisai Cao, Wanquan Jiang, Qianyun He, Kaihui Chen, and Haoming Pang

Subjects

Dilatant, Materials science, Shear thinning, Jamming, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Atomic and Molecular Physics, and Optics, Shear (geology), Mechanics of Materials, 0103 physical sciences, Signal Processing, Stress relaxation, General Materials Science, Electrical and Electronic Engineering, Composite material, 010306 general physics, 0210 nano-technology, Civil and Structural Engineering

Published

2018

36. Research on the Properties of the Waste Glass Concrete Composite Foundation

Author

Shilong Jia, Zhongliang Chen, and Kaihui Chen

Subjects

Engineering, business.industry, Composite number, Foundation (engineering), Bearing capacity, Reuse, business, Civil engineering

Abstract

The composite foundation of glass concrete can not only reuse the large number of waste glass, but also improve the bearing capacity of weak foundation and soil with special properties. In this paper, the engineering properties of glass concrete composite foundation are studied based on the development situation of glass concrete and the technology of composite foundation.

Published

2018

37. Poultry Infection with Influenza Viruses of Wild Bird Origin, China, 2016

Author

Zhijun Yu, Kaihui Cheng, and Yuwei Gao

Subjects

Migratory birds, domestic poultry, transmission, H13N2, H13N8, viruses, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Migratory birds may play a role in transmission of avian influenza virus. We report the infection of black-tailed gulls and chickens in eastern China with avian influenza (H13N2) and (H13N8) viruses. We found that these H13 viruses were transmitted from migratory birds to domestic poultry.

Published

2018

38. Molecular Characterization and Phylogenetic Analysis of New Variants of the Porcine Epidemic Diarrhea Virus in Gansu, China in 2012

Author

Yuwei Gao, Zhenguo Yang, Songtao Yang, Na Feng, Geng Huang, Tiecheng Wang, Shengtao Fan, Yuanguo Li, Yue Xin, Jing Huang, Yuxiu Liu, Kaihui Cheng, Zhijun Yu, Yufei Tian, and Xianzhu Xia

Subjects

molecular characterization, spike glycoprotein gene, phylogenetic analysis, porcine epidemic diarrhea virus (PEDV), Microbiology, QR1-502

Abstract

Between January 2012 and March 2012, the infection rates of porcine epidemic diarrhea virus (PEDV) increased substantially in vaccinated swine herds in many porcine farms in Gansu Province, China. The spike (S) glycoprotein is an important determinant for PEDV biological properties. To determine the distribution profile of PEDV outbreak strains, we sequenced the full-length S gene of five samples from two farms where animals exhibited severe diarrhea and high mortality rates. Five new PEDV variants were identified, and the molecular diversity, phylogenetic relationships, and antigenicity analysis of Gansu field samples with other PEDV reference strains were investigated. A series of insertions, deletions, and mutations in the S gene was found in five PEDV variants compared with classical and vaccine strains. These mutations may provide stronger pathogenicity and antigenicity to the new PEDV variants that influenced the effectiveness of the CV777-based vaccine. Our results suggest that these new PEDV variant strains in Gansu Province might be from South Korean or South China, and the effectiveness of the CV777-based vaccine needs to be evaluated.

Published

2013

39. Contribution of frictional contact during steady and oscillatory shear in the discontinuous shear thickening fluid.

Author

Kaihui Chen, Yu Wang, Shouhu Xuan, Saisai Cao, and Xinglong Gong

Abstract

In the present work, an elastic-core-modified mesoscale dissipative particle dynamics model is proposed, so as to investigate the microstructural evolution dependency on the viscosity in shear thickening fluids. The characteristic of the microstructural evolution in the colloidal suspensions under steady shear deformation is studied. The dominant interaction in the system changes from the hydrodynamics to the strong frictional contacts during the discontinuous shear thickening (DST) stage. An oscillatory shear action is creatively taken to study the rheological properties of the suspension, as well as to investigate the microstructural evolution with dynamic response of the system. The exact formulation of the relative viscosity as a function of the effective volume fraction (EVF), which is obtained from the packaging of the frictional contact network, is proposed. It is confirmed that the formation of frictional contact network of dispersed colloidal particles is determined by the competition between construction and decomposition of the particle contacts. The influences of different factors, like particle size, volume fraction, and surface roughness, on the DST behavior are also explored to prove our mechanism. The relationship of shear rate, frictional contact network, EVF, and apparent viscosity is revealed clearly. [ABSTRACT FROM AUTHOR]

Published

2019

40. Contagious Caprine Pleuropneumonia in Endangered Tibetan Antelope, China, 2012

Author

Zhijun Yu, Tiecheng Wang, Heting Sun, Zhiping Xia, Kun Zhang, Dong Chu, Yu Xu, Yue Xin, Weiwei Xu, Kaihui Cheng, Xuexing Zheng, Geng Huang, Yongkun Zhao, Songtao Yang, Yuwei Gao, and Xianzhu Xia

Subjects

Tibetan antelope, Mycoplasma capricolum subsp. capripneumoniae, contagious caprine pleuropneumonia, bacteria, pneumonia, endangered, Medicine, Infectious and parasitic diseases, RC109-216

Published

2013

41. Stress relaxation in the transition from shear thinning to shear jamming in shear thickening fluid.

Author

Saisai Cao, Qianyun He, Haoming Pang, Kaihui Chen, Wanquan Jiang, and Xinglong Gong

Abstract

The rheological measurement was adopted to study the relationship between the stress relaxation phenomenon and the internal structure of shear thickening fluid (STF). Based on particle chain network, the viscoelastic model successfully predicted the stress relaxation and agreed well with experimental results. By investigating the stress relaxation behavior, it was found the transition from continuous shear thickening to discontinuous shear thickening could occur not only by increasing the volume fraction ϕ but also by increasing the shear rate and shear time ts. The phase diagram in the plane revealed the structure transition of STF under shear. [ABSTRACT FROM AUTHOR]

Published

2018