Your search keyword '"Wang, Xiao-Dong"' showing total 37 results

1. Unfolding simulation of single-energy and continuous fast neutrons spectrum based on micro-pattern gas detector

Author

Zhu Kun, Cheng Kai, Ji Xuan-Tao, Zeng De-Kai, Wei Xin, and Wang Xiao-Dong

Subjects

Materials science, Spectrum (functional analysis), General Physics and Astronomy, Gas detector, Nuclear Experiment, Neutron temperature, Energy (signal processing), Computational physics, Micro pattern

Abstract

This paper focuses on the feasibility of fast neutron energy spectrum measurement. The MCNPX and Geant4 are used to simulate two conversion models of stacking neutrons to protons in the triple GEM cathode coupled with multilayer polyethylene, with five kinds of single-energy neutron sources and Am-Be continuous neutron sources taken as research objects. The response function to 160 single energy neutrons and the recoil proton spectrum distribution of the above sources of the detection system are obtained by simulation. Using GRAVEL algorithm and MLEM algorithm and through simulation, the recoil proton spectra of six kinds of fast neutron sources are obtained, and they are further analyzed. The spectrum outcome is compared with the standard input spectrum, showing that they are in good agreement with each other. The relative uncertainty of the unfolding spectrum is around 10%–15%. In this part the relation of gas detector with the precision of unfolding spectrum is also discussed. The result shows that when the energy resolution of micro-pattern gas detection is better than 30%, the accuracy of fast neutron spectrum can meet the needs of practical applications. Furthermore, a new transformation model is proposed based on previous experiments and proves the feasibility of applying micro-pattern gas detector to fast neutron detection of simulation. Moreover, spectrum reconstruction can be achieved by using the obtained recoil proton spectrum combined with a suitable inversion algorithm. The modeling and spectrum analysis of this study can provide a different method of applying the fast neutron detection system composed of micro-pattern gas detectors to the detection of unknown fast neutron sources and also to the source recognition through spectrum reconstruction.

Published

2021

2. Fabrication and thermoelectric properties of Si micro/nanobelts

Author

Wei Lei, 北京市半导体微纳集成工程技术研究中心, 北京 ,Beijing Semiconductor Micro, Wang Xiao-Dong, Wei Jiang-Tao, Zhang Ming-Liang, Qin Yuan-Hao, Song Pei-Shuai, Yang Liang-Liang, and Yang Fuhua

Subjects

Fabrication, Materials science, Thermoelectric effect, General Physics and Astronomy, Nanotechnology

Abstract

Currently, low-dimensional materials are a hot spot in the field of thermoelectric research, because the thermoelectric properties will be significantly improved after the low-dimensionalization of bulk materials. In a bulk material, its thermoelectric figure of merit ZT value cannot be increased by changing a single parameter, because the parameters of the material are interrelated to each other, which is not conducive to the research of internal factors and thus limiting the efficiency of thermoelectric material, but thermoelectric material on a micro-nano scale is more flexible to adjust its thermoelectric figure of merit ZT value. There are many different kinds of methods of implementing the low-dimensionalization of bulk materials. In this paper, size-controllable Si micro/nanobelts are prepared based on semiconductor micromachining and focused ion beam (FIB) technology, and the thermoelectric properties of Si micro/nanobelts of different sizes are comprehensively studied by the micro-suspension structure method.In this experiment, we find that the conductivity of doped Si micro/nanobelt is significantly better than that of bulk Si material, that as the width of the Si micro/nanobelt decreases, the thermal conductivity of the material decreases significantly, from 148 W/(m·K) of bulk silicon to 17.75 W/(m·K) of 800 nm wide Si micro-nanobelt, that the Seebeck coefficient of the material is lower than that of the corresponding bulkmaterials. The decrease of thermal conductivity is mainly due to the boundary effect caused by the size reduction, which leads the phonon boundary scattering to increase, and thus significantly inhibiting the behavior of phonon transmission in the Si material, thereby further affecting the transmission and conversion of thermal energy in the material. At 373 K, the maximum ZT value of the 800 nm wide Si micro/nanobelt reaches ～0.056, which is about 6 times larger than that of bulk silicon. And as the width of the Si micronanobelt is further reduced, the thermoelectric figure of merit ZT value will be further improved, making Si material an effective thermoelectric material. The FIB processing technology provides a new preparation scheme for improving the thermoelectric performances of Si materials in the future, and this manufacturing technology can also be applied to the low-dimensional preparation of other materials.

Published

2021

3. Methodology of teasting thermoelectric properties of low-dimensional nanomaterials

Author

Wei Jiang-Tao, Zhang Ming-Liang, 北京市半导体微纳集成工程技术研究中心, 北京 ,Beijing Semiconductor Micro, Yang Fuhua, Qin Yuan-Hao, Wang Xiao-Dong, Song Pei-Shuai, and Yang Liang-Liang

Subjects

Materials science, Thermoelectric effect, General Physics and Astronomy, Nanotechnology, Nanomaterials

Published

2021

4. Numerical methods of mode selection in continuous-wave cavity ring-down spectroscopy

Author

Wang Xiao-Dong, Yu Jin, Wang Jinduo, Liu Yang, He Jianguo, Meng Jingjing, Dai Shoujun, and Mo Zeqiang

Subjects

Physics, Coupling, Sampling (signal processing), law, General Physics and Astronomy, Continuous wave, Sensitivity (control systems), Laser power scaling, Laser, Order of magnitude, Computational physics, Cavity ring-down spectroscopy, law.invention

Abstract

In continuous-wave cavity ring-down spectroscopy (CW-CRDS), the measurement sensitivity is seriously affected by the multimode excitations in the ring-down cavity. The using of an intracavity aperture is a common way to restrain the excitation of high-order modes, thus leading the laser power to additionally lose and the signal-to-noise ratio to degrade. In this paper, two numerical methods, named “trigger threshold method” and “curve fitness method”, are proposed for selecting the mode in which the decays excited by the high-order modes can be removed. The laser coupling efficiency between the incident laser and the oscillating fundamental or high-order modes is studied in a misadjusted ring-down cavity. It is found that with a misadjusted ring-down cavity, the laser energy is partially coupled into the high-order modes, and the coupling energy increases with the extent of the cavity misadjustment increasing. In this case, the ring-down decaying traces excited by these high-order modes are different from and much shorter than those excited by the fundamental mode, which are respectively called “bad decays” and “good decays” in this paper. Both the fundamental mode and the high-order modes can reach the threshold in the case of low triggering threshold selection and result in the components of both good and bad decays in the output ring-down curves. When the trigger threshold rises, the bad decays are effectively restrained by the deficient coupling into the high-order modes. Thus raising the trigger threshold is an effective method to restrain bad decays for the mode selection. Another approach is to consider the time spent on turning off the laser injection since the fitting goodness of good decays is better than that of bad decays. In this paper this characteristic is also used to separate the good decays from the bad ones. These two methods are demonstrated in the CW-CRDS experiments. The results show that the sensitivity of the CW-CRDS instrument can be greatly improved by one order of magnitude in the trigger threshold method with the minimum of Allan deviations gradually approaching to a constant, while the acquisition rate of the ring-down decays slows down with the increase of the trigger threshold. The results also explain the relationship between single sampling and averaged sampling, which presents an answer to the question about the sequence choice between averaging and fitting. A numerical model is proposed to estimate the probability of good decays versus the trigger threshold, which can be used to choose appropriate trigger threshold for CW-CRDS experiment. The applicable conditions and the limitations of these two methods in CW-CRDS for trace gas detection are also discussed in the paper.

Published

2019

5. On solutions of quaternion matrix equations XF # AX = BY and XF # A = BY

Author

Chen Guo-liang, Wang Xiao-dong, and Song Caiqin

Subjects

Complex representation, State-transition matrix, General Mathematics, Mathematical analysis, General Physics and Astronomy, Expression (mathematics), symbols.namesake, Kronecker delta, Quaternion matrix, symbols, Applied mathematics, Sylvester matrix equation, Lyapunov matrix, Mathematics, Matrix method

Abstract

In this paper, the quaternion matrix equations XF # AX = BY and XF # A = BY are investigated. For convenience, they were called generalized Sylvesterquaternion matrix equation and generalized Sylvester-j-conjugate quaternion matrix equation, which include the Sylvester matrix equation and Lyapunov matrix equation as special cases. By applying of Kronecker map and complex representation of a quaternion matrix, the sufficient conditions to compute the solution can be given and the expressions of the explicit solutions to the above two quaternion matrix equations XF # AX = BY and XF # A = BY are also obtained. By the established expressions, it is easy to compute the solution of the quaternion matrix equation in the above two forms. In addition, two practical algorithms for these two quaternion matrix equations are give. One is complex representation matrix method and the other is a direct algorithm by the given expression. Furthermore, two illustrative examples are proposed to show the efficiency of the given method.

Published

2012

6. Self-Injection and Acceleration of Monoenergetic Electron Beams from Laser Wakefield Accelerators in a Highly Relativistic Regime

Author

Gu Yu-Qiu, Lin Yuzheng, H. Yoshitama, Tang Chuan-Ming, Zhang Bao-Han, Wen Xian-Lun, Tang Chuan-Xiang, Wang Xiao-Dong, Hideyuki Kotaki, Chen Li-Ming, Wen Tian-Shu, K. Nakajima, Liu Hong-Jie, Masaki Kando, Jiao Chun-Ye, Huang Xiao-Jun, Peng Han-sheng, Hung Wen-Hui, Wu Yuchi, AN Wei-Min, Takashi Kameshima, Zhu Qi-Hua, and Guo Yi

Subjects

Physics, Bubble, General Physics and Astronomy, Self injection, Plasma, Electron, Wake, Laser, law.invention, Nuclear physics, Acceleration, Physics::Plasma Physics, law, Physics::Accelerator Physics, Atomic physics, Beam (structure)

Abstract

Self-injection and acceleration of monoenergetic electron beams from laser wakefield accelerators are first investigated in the highly relativistic regime, using 100 TW class, 27fs laser pulses. Quasi-monoenergetic multi-bunched beams with energies as high as multi-hundred MeV are observed with simultaneous measurements of side-scattering emissions that indicate the formation of self-channelling and self-injection of electrons into a plasma wake, referred to as a 'bubble'. The three-dimensional particle-in-cell simulations confirmed multiple self-injection of electron bunches into the bubble and their beam acceleration with gradient of 1.5GeV/cm.

Published

2008

7. Supercontinuum Generation with 15-fs Pump Pulses in a Microstructured Fibre with Random Cladding and Core Distributions

Author

Wang Xiao-Dong, Yao Jian-Quan, Huang Xiao-Jun, Wang Yan-yong, Hou Zhi-Yun, Wang Li, Yuan Xiao-Feng, Hou Lan-Tian, Zhou Gui-Yao, Xing Guang-zhong, Zhou Kai-Nan, Zheng Yi, Guo Yi, and Zhang Yu-Ping

Subjects

Materials science, business.industry, General Physics and Astronomy, Ranging, Cladding (fiber optics), Polarization (waves), Laser, Supercontinuum, law.invention, Wavelength, Optics, law, White light, Optoelectronics, business, Visible spectrum

Abstract

A supercontinuum extending from 350 nm to more than 1700 nm is generated in microstructured fibre (MF) with randomly distributed air holes in cladding and core by using 15-fs pulses of a 790-nm laser. The maximum total power of the supercontinuum is 63 mW with 288 mW pump power from a 100× microscope objective. The wavelength and power of visible light ranging in the supercontinuum can be tuned by adjusting the input end of random the MF (to change pump incident point or incident angle). In particular, white light has been observed. The polarization states and waveguide modes of the visible light change with adjustment of the pump incident point or incident angle.

Published

2004

8. Inner Structure of Boiling Nucleus and Interfacial Energy Between Nucleus and Bulk Liquid

Author

Peng Xiaofeng, Tian Yong, Wang Xiao-Dong, and Wang Buxuan

Subjects

Surface tension, Materials science, medicine.anatomical_structure, Density gradient, Boiling, Nucleation, medicine, General Physics and Astronomy, Thermodynamics, Liquid phase, Nucleus, Surface energy

Abstract

A model of two-region structure of a nucleus is proposed to describe nucleus evolution. The interfacial tension between bulk liquid phase and nucleus is dependent on the density gradient in the transition region and varies with the structure change of the transition region. With the interfacial tension calculated using this model, the predicted nucleation rate is very close to the experimental measurement. Furthermore, this model and associated analysis provide solid theoretical evidence to clarify the definition of nucleation rate and understand the nucleation phenomenon with insight into the physical nature.

Published

2004

9. Relativistic Electron Acceleration in a Wake Field Generated by the Intense Femtosecond Laser Interaction with a Mixture Jet of Deuterium Clusters and Molecules

Author

Zhang Shuang-Gen, Huang Xiao-Jun, Liu Hong-Jie, Hua Jian-Fei, Gu Yu-Qiu, Han Zai-Min, Jiao Chun-Ye, Nam Sung-Mo, Wen Xian-Lun, Zheng Zhi-Jian, He Ying-Ling, Wang Xiao-Dong, Wang Xiang-Xian, Zhou Kai-Nan, and Wen Tian-Shu

Subjects

Physics, Jet (fluid), Physics::Optics, General Physics and Astronomy, Electron, Laser, Pulse (physics), law.invention, Deuterium, law, Femtosecond, Cluster (physics), Physics::Accelerator Physics, Molecule, Atomic physics

Abstract

High energy electron acceleration in a wake field generated in the intense ultrashort (30 fs) laser pulse cluster gas jet interaction is experimentally demonstrated. Relativistic electrons with energy of 60 MeV were observed. These high energy electrons split into two beams due to the relativistic self-focusing of the laser.

Published

2006

10. Dielectric properties of graphene/poly(vinyl alcohol)/poly (vinylidene fluoride) nanocomposites films

Author

Tang Hai-Tong, Wang Xiao-Dong, Meng Fan-Ling, Feng Qi, Gao Zhong-Min, and Li Meng-Kai

Subjects

Vinyl alcohol, Nanocomposite, Materials science, Graphene, General Physics and Astronomy, 02 engineering and technology, Dielectric, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, chemistry.chemical_compound, chemistry, Chemical engineering, law, 0210 nano-technology, Fluoride

Abstract

Graphene has been a superstar in the fields ranging from materials science to condensed-matter physics since 2004. Graphene possesses good thermal and mechanical properties, high electron transfer capability and relatively low production cost. As a consequence, graphene has been used in the areas of multi-functional advanced materials and electronics. A direct disperse method has been widely applied to polymers to improve their dielectric properties. Recently, graphene/polymer composites have received much attention. Graphene nanosheets can significantly improve the physical properties of the host polymer at a very low content of conductive filler loading. Poly vinylidene fluoride (PVDF) is a semicrystalline thermoplastic polymer with remarkably high piezo-/pyroelectric coefficient, and excellent thermal stability and chemical resistance. More efforts have been recently devoted to the preparations of high-' composites based on PVDF. In this work, a graphene/PVA/PVDF nanocomposite film composed of poly(vinyl alcohol) (PVA), reduced graphene oxide (RGO), and poly (vinylidene fluoride) (PVDF) is fabricated. First of all, graphene oxide (GO) is prepared by the modified Hummers method. GO and PVA are successively dissolved in the dimethyl sulfoxide (DMSO) solution, in order to obtain PVA functionalized GO which is formed via non-covalent bonds. Then PVDF is added into this solution to form a homogeneous three-phase aqueous mixture. According to the solution-casting and thermal reduction processes, the three-phase nanocomposite films are formed. The thickness values of the films are in a range of 0.3-0.4 mm. The square specimens are coated with a silver paste prior to electrical measurements. The obtained products are characterized using X-ray diffraction, UV Vis absorption spectrum, Fourier transform infrared absorption spectrum, and atomic force microscopy. The morphologies of PVDF and RGO/PVA/PVDF films are investigated by a scanning electron microscope. Electrical measurements are conducted in a frequency range from 102 to 104 Hz. Results suggest that GO can be reduced to RGO and phase transition of PVDF from to phases is effectively promoted at 120 ℃. The dielectric properties of the polymer matrix are improved. Furthermore, PVA modified RGO is easier to disperse in the PVDF substrate than the original one, which strongly reduces the spherulite size of PVDF and improves the dielectric property of the composite film. The percolation threshold (fvol*) of RGO/PVA/PVDF film is estimated to be 8.45 vol.%, and the dielectric constant of the film is 238 times as large as that of the pure PVDF films at 102 Hz. In addition, the dielectric constant increases rapidly near the percolation threshold and depends on frequency, which is mainly ascribed to the Maxwell-Wagner-Sillars polarization in the low frequency range. This study provides a low-cost and simple method of preparing polymer nanocomposites with high dielectric properties.

Published

2016

11. A Narrow Photoluminescence Linewidth of 19.2 meV at 1.35 µm from In 0.5 Ga 0.5 As/GaAs Quantum Island Structure Grown by Molecular Beam Epitaxy

Author

Wang Xiao-Dong, Feng Song-Lin, Miao Zhen-Hua, and Niu Zhi-Chuan

Subjects

Fabrication, Photoluminescence, Materials science, business.industry, General Physics and Astronomy, chemistry.chemical_element, Wavelength, Laser linewidth, chemistry, Quantum dot, Monolayer, Optoelectronics, business, Indium, Molecular beam epitaxy

Abstract

A self-organized In0.5Ga0.5As/GaAs quantum island structure emitting at 1.35 mum at room temperature has been successfully fabricated by molecular beam epitaxy via cycled (InAs)(1)/GaAs)(1)monolayer deposition method. The photoluminescence measurement shows that a very narrow linewidth of 19.2 meV at 300 K has been reached for the first time, indicating effective suppression of inhomogeneous broadening of optical emission from the In0.5Ga0.5As island structure due to indium segregation reduction by introducing an AlAs layer and the strain reduction by inserting an In0.2Ga0.8As layer overgrown on the top of islands. The mound-like morphology of the islands elongated along the [1 (1) over bar0] azimuth are observed by the atomic force microscopy measurement, which reveals the fact that strain in the islands is partially relaxed along the [1 (1) over bar0] direction. Our results present important information for the fabrication of 1.3 mum wavelength quantum dot devices.

Published

2001

12. Momentum Profile and Final Correlation Effects of Iso-butane Inner Valence by Binary (e, 2e) Spectroscopy

Author

Wang Yan, Zheng Yan-You, Wang Fang, Wang Xiao-Dong, He Yao, Chen Xuejun, Li Gui-Qin, Deng Hui, Gao Naifei, Huang Jian-Dong, Ning Chuan-Gang, Deng Jing-Kang, and Zhang Yi-An

Subjects

Physics, Full width at half maximum, Valence (chemistry), Spectrometer, Atomic orbital, Binding energy, General Physics and Astronomy, Density functional theory, Electron, Atomic physics, Valence electron

Abstract

The binding energy spectra and the momentum distributions of the valence orbitals of iso-butane, also known as methylpropane (CH3CH(CH3)CH3), are studied by using a high resolution binary (e, 2e) electron momentum spectrometer, at an impact energy of 1200eV plus the binding energy (8-32eV) with symmetric non-coplanar kinematics. Binding energy spectra of the valence shell are obtained at a coincidence energy resolution of 0.95 eV in full width at half maximum. The experimental momentum profiles of the inner valence orbitals are obtained and compared with the theoretical momentum distributions calculated by using Hartree-Fock and density functional theory methods with the basis sets 6-31G and 6-311++G**. The pole strengths of the inner orbitals are estimated and the final correlation effects are discussed.

Published

2000

13. Spreading dynamics of liquid droplet on gradient micro-structured surfaces

Author

Wang Xiao-Dong, Zhang Xin-xin, Lin Lin, and Yuan Ru-Qiang

Subjects

Physics::Fluid Dynamics, Contact angle, Surface (mathematics), Work (thermodynamics), Hysteresis, Materials science, Field (physics), Dynamics (mechanics), General Physics and Astronomy, Wetting, Surface finish, Mechanics

Abstract

Designed microtextured surfaces have shown promising applications in tuning the wettability of a liquid droplet on the surfaces and attracted great attention over the past decade; unfortunately, the effect of surface geometry on wetting properties is still poorly understood. In this work, two- and multi-stage pillar microtextures are designed to construct gradient surfaces by altering pillar width and spacing. Then, the multi-phase lattice-Boltzmann method (LBM) is used to investigate the wetting dynamics of a liquid droplet on the gradient surface. Results show that for the two-stage gradient surface with variable pillar spacing, the contact angle hysteresis is found to be proportional to the roughness gradient when droplet/surface system is in the Cassie-Baxter state. However, this proportional relation is no longer correct when the system is in the transition state between the Wenzel and Cassie-Baxter states. For the two-stage gradient surface with variable pillar spacing, the contact angle hysteresis always increases linearly with increasing roughness gradient. Results also show that when a larger droplet is placed on the multi-stage gradient surface, stronger droplet motion is observed due to the smaller contact angle hysteresis. The present LBM simulations provide a guideline for the design and manufacture of the microtextured surfaces to tune the droplet wettability and motion.

Published

2015

14. The (e, 2e) Spectra of Argon

Author

Chen Xuejun, Gao Naifei, Pang Wen-Ning, Deng Jing-Kang, Fan Xiao-wei, Lai De-shi, Zheng Yen-you, Wang Yan, Zhang Qing-xiang, Zhou Shao-jie, Zhu Weibin, Zhang Wen-xin, Wei Jing-jing, and Wang Xiao-Dong

Subjects

Momentum, Materials science, Argon, Spectrometer, chemistry, Binding energy, General Physics and Astronomy, High resolution, chemistry.chemical_element, Atomic physics, Configuration interaction, Energy (signal processing), Spectral line

Abstract

Accurate measurements of the binding energy spectrum and momentum distribution of argon are performed using the high resolution (ΔE = 1.4 eV, Δp = 0.1 a.u.) energy multichannel (e, 2e) spectrometer (θ1 = θ2 = 45°, = 0°-±30°) built recently in our laboratory. Detailed satellite structure of argon has been observed. Good agreement can be found between the experimental data and the theoretical calculations performed using Hartree-Fock method with the different basis sets and configuration interaction method.

Published

1997

15. High-Energy Ion Emission from Cooled Deuterium Clusters in 20 TW Laser Fields

Author

Wen Xian-Lun, Zheng Zhi-Jian, GE Fang-fang, Wang Guangchang, Jiao Chun-Ye, Zhou Wei-Min, Huang Xiao-Jun, Huang Wen-Zhong, Gu Yu-Qiu, Wang Xiao-Dong, NI Guo-Quan, Wang Hongbin, Zhang Shuang-Gen, Liu Hong-Jie, He Ying-Ling, Wen Tian-Shu, Zhou Kai-Nan, and Wang Xiang-Xian

Subjects

Jet (fluid), Fusion, High energy, Materials science, General Physics and Astronomy, Pyroelectric fusion, Laser, law.invention, Deuterium, Physics::Plasma Physics, law, Nuclear fusion, Physics::Atomic Physics, Atomic physics, Ion emission, Nuclear Experiment

Abstract

High-energy ion emission from intense-ultrashort (30fs) laser-pulse- cooled deuterium-cluster (80K) interaction is measured. The deuterium ions have an average energy 20keV, which greatly exceeds Zweiback's expectation [Phys. Rev. Lett. 84 (2000) 2634]. These fast deuterium ions can be used to drive fusion and have a broad prospect.

Published

2005

16. Reduction of Efficiency Droop and Modification of Polarization Fields of InGaN-Based Green Light-Emitting Diodes via Mg-Doping in the Barriers

Author

Ren Peng, Dong Peng, Liu Zhe, Wang Junxi, Zhu Shao-Xin, Feng Xiang-Xu, Lu Hongxi, DU Cheng-Xiao, Wang Xiao-Dong, Si Zhao, Fu Binglei, LI Jin-Min, and Zhang Ning

Subjects

Materials science, Impurity, business.industry, Doping, Photocurrent spectra, General Physics and Astronomy, Optoelectronics, Voltage droop, Green-light, business, Polarization (waves), Blueshift, Diode

Abstract

We demonstrate that the Mg-doping in barriers can partially screen the polarization fields of InGaN-based green light-emitting diodes. The photocurrent spectra show that the Mg-doping samples have smaller polarization fields and the blue shift of the peak with increasing current is observed. The reduction of polarization fields can be attributed to the screening of the impurity holes generated by the Mg atoms in the barriers. The efficiency droop is sensitive to the Mg-doping concentration in barriers, while the sample with Mg concentration of 5 × 1019 cm−3 exhibits the lowest efficiency degradation of 12.4% at a high injection current.

Published

2013

17. An improved element-free Galerkin method for solving the generalized fifth-order Korteweg—de Vries equation

Author

Ouyang Jie, Wang Xiao-Dong, and Feng Zhao

Subjects

Partial differential equation, Consistency (statistics), Iterative method, Differential equation, General Physics and Astronomy, Motion (geometry), Applied mathematics, Order (group theory), Korteweg–de Vries equation, Galerkin method, Mathematics

Abstract

In this paper, an improved element-free Galerkin (IEFG) method is proposed to solve the generalized fifth-order Korteweg—de Vries (gfKdV) equation. When the traditional element-free Galerkin (EFG) method is used to solve such an equation, unstable or even wrong numerical solutions may be obtained due to the violation of the consistency conditions of the moving least-squares (MLS) shape functions. To solve this problem, the EFG method is improved by employing the improved moving least-squares (IMLS) approximation based on the shifted polynomial basis functions. The effectiveness of the IEFG method for the gfKdV equation is investigated by using some numerical examples. Meanwhile, the motion of single solitary wave and the interaction of two solitons are simulated using the IEFG method.

Published

2013

18. The element-free Galerkin method based on the shifted basis for solving the Kuramoto- Sivashinsky equation

Author

Wang Xiao-Dong, Ouyang Jie, and Feng Zhao

Subjects

Element free galerkin, Basis (linear algebra), General Physics and Astronomy, Applied mathematics, Kuramoto–Sivashinsky equation, Mathematics

Abstract

The Kuramoto-Sivashinsky equation is a kind of high-order nonlinear evolution equation which can describe complicated chaotic nature. Due to the existence of high-order derivatives in the equation, the shape functions violate the consistency conditions when using traditional element-free Galerkin method which adopts high-order polynomial basis functions to construct the shape functions. In order to solve the problems encountered in the traditional element-free Galerkin method, a kind of element-free Galerkin method adopting the shifted polynomial basis functions is presented in this paper. Compared with the traditional element-free Galerkin method, the Galerkin principle is still used to discrete the equation in this method, but the shape functions are constructed by moving least squares based on the shifted polynomial basis functions. Numerical results for the Kuramoto-Sivashinsky equation having traveling wave solution and chaotic nature prove the validity of the presented method.

Published

2012

19. Lattice Boltzmann method for an advective transport equation coupled with incompressible flow field

Author

Wang Xiao-Dong, Ouyang Jie, and Su Jin

Subjects

Physics::Fluid Dynamics, Physics, Field (physics), Incompressible flow, Advection, Lattice Boltzmann methods, General Physics and Astronomy, Mechanics, Convection–diffusion equation

Abstract

In this paper, an improved numerical scheme based on the lattice BGK method (LBM) is proposed for solving the advective transport equation coupled with an incompressible flow. We utilize the LBM to solve the equations of flow field and build a second order discrete scheme for the advective transport equations using the probability density function of LBM. Meanwhile, the validity of the method is verified by an advective transport in a planar channel flow. Numerical results show that the method reduces the numerical dissipation efficiently and it involves consistently smaller memory requirements compared with previous studies.

Published

2012

20. Two-dimensional non-spatial filtering based on holographic Bragg gratings

Author

Wang Xiao Dong, Zheng Guang-wei, He Yan-Lan, Tan Ji-chun, Zheng Hao-bin, Wang Xiao, and Ding Dao-yi

Subjects

Materials science, business.industry, Holography, Physics::Optics, General Physics and Astronomy, Filter (signal processing), Grating, Diffraction efficiency, Collimated light, law.invention, Optics, Fiber Bragg grating, law, Non spatial, Optoelectronics, Physics::Atomic Physics, business, Laser beams

Abstract

The filter made up of two gratings performs as a two-dimensional non-spatial filtering. This paper reports that the volume Bragg gratings are fabricated by interfering two collimated coherent laser beams in photopolymer. Diffraction efficiency of a single grating is up to 78% in Bragg's condition, then a two-dimensional non-spatial filter, which consists of two volume Bragg gratings and a half-wave plate, enables the laser beam filtered in two dimensions with the diffraction efficiency of 54%. The Bragg's condition and effect of polarisation on performances of the two-dimension filter are also discussed.

Published

2010

21. Simulation of microstructure of liquid-crystalline polymers in nonhomogenous shear flow by EFG method

Author

Wang Xiao-Dong, Ouyang Jie, and Su Jin

Subjects

chemistry.chemical_classification, Diffusion equation, Materials science, business.industry, Composite number, General Physics and Astronomy, Structural engineering, Mechanics, Polymer, Hagen–Poiseuille equation, Deborah number, Flow (mathematics), chemistry, business, Shear flow, Microscale chemistry

Abstract

Complex microstructures of liquid-crystalline polymers in nonhomogenous shear flow are studied by element free Galerkin (EFG) method based on the micro-macro dualscale model. The dualscale model combines the orientational diffusion equation in microscale with the flow governing equations in macroscale. The EFG method which has the merits of high accuracy and good stability can ensure the reliability of the simulation results. One simple and five composite structures of liquid-crystalline polymers in nonhomogenous shear flow are predicted by studying the influences of Deborah number on microstructures of liquid-crystalline polymers in plane Poiseuille flow. It shows that the instabilities in the transition region of the composite structures can cause some defects.

Published

2010

22. Micro-macro numerical simulation of rod-like polymeric solutions

Author

Su Jin, Wang Xiao-Dong, and Ouyang Jie

Subjects

Materials science, Finite volume method, Computer simulation, Smoluchowski coagulation equation, Plane (geometry), General Physics and Astronomy, Mechanics, Deborah number, Condensed Matter::Soft Condensed Matter, Physics::Fluid Dynamics, symbols.namesake, Classical mechanics, Rheology, Flow (mathematics), symbols, Couette flow

Abstract

In this paper the complex rheological behaviors of rod-like polymer solutions in plane Couette flow are studied using micro-macro simulation. The micro-macro model is described by Doi theory with local inhomogeneous fluid. The finite volume method is used to solve the conservation equation on the macroscopic level and the Smoluchowski equation on the microscopic level in the numerical simulation. The numerical results predict several plane flow modes including some typical plane modes and two new complicated modes. Furthermore, simulation results show that the rheological phase diagrams for solutions of rigid rod molecules are mainly dependent on the Deborah number, the concentration of solutions and molecular scale, and the varying Deborah number have great influence on some micro-properties of tumbling period and orientation angle of flow-aligning.

Published

2010

23. Numerical simulation on the energy deposition of double-layer target irradiated by intense pulsed ion beam

Author

Wu Di, Liu Jin-Yuan, Wang Xiao-Dong, Ma Teng-Cai, Zhang Jian-Hong, Gong Ye, Wang Xiao-Gang, and Liu Yue

Subjects

Materials science, Ion beam, chemistry, Aluminium, Monte Carlo method, General Physics and Astronomy, chemistry.chemical_element, Irradiation, Thin film, Atomic physics, Deposition (law), Voltage, Diode

Abstract

Gaussian distribution models of voltage wave form of magnetically insulated diode (MID) of TEMPⅡ accelerator and intense pulsed ion beam (IPIB) density near the MID focus region have been built according to the results of experiments. Interaction of IPIB with a double-layer aluminum target coated by a thin film of gold has been studied using Monte Carlo method. The spatial and temporal evolution of deposited energy is obtained, the states of deposited energy for the different gold thickness are discussed, and the enhanced adhesion at interfaces by IPIB is investigated.

Published

2008

24. The mechanism of self-assembly of polystyrene submicrospheres at water-air interface

Author

Wang Xiao-Dong, Dong Peng, Chen Sheng-Li, and Yi Gui-Yun

Subjects

Materials science, Capillary action, Evaporation, General Physics and Astronomy, Nanotechnology, Colloidal crystal, Critical value, Contact angle, chemistry.chemical_compound, Chemical engineering, chemistry, SPHERES, Polystyrene, Wetting

Abstract

The mechanism of polystyrene submicrospheres assembling in aqueous suspension was studied systemically. During the evaporation of solvent, the PS spheres were transported to the water-air inter-surface, where these spheres self-assemble into colloidal crystal through the capillary force between the particles at water-air interface. The wettability of the PS spheres at the water-air interface changes from complete wetting to partial wetting and finally to non-wetting with the evaporation of water, so that the contact angle between the PS spheres and water increases gradually. The experiment showed that only after the contact angle reached a critical value θ′critical, could the PS sphere-assembly occur. The critical value θ′critical obtained from the Wenzel equation was greater than the measured value θcritical＝22° because the surface of the PS colloidal crystal was “regularly” coarse. The change of the PS spheres at water-air interface from the hydrophilic to hydrophobic is essential for the PS spheres to assemble into colloidal crystals.

Published

2007

25. Microstructures of Al and Cu interconnects

Author

Wang Jun-Zhong, Li Zhi-Guo, Liu Zhi-Min, Wang Xiao-Dong, Luo Jun-Feng, and Ji Yuan

Subjects

Interconnection, Materials science, Copper interconnect, General Physics and Astronomy, Grain boundary, Composite material, Microstructure, Electromigration, Grain size, Electron backscatter diffraction, Ion

Abstract

The electron backscatter diffraction technique (EBSD) has been used to measure the microstructure of reactive ion etched(RIE) Al and damascene Cu interconnects, including the grain size, grain orientation and grain boundary characteristics. Linewidths of Cu interconnects, as well as the anneal processes of Al and Cu interconnects impacting on the microstructures and causing the electromigration failure were analyzed.

Published

2007

26. High energy chirped pulse characteristics observed by spectral-resolved streak camera

Author

Huang Zheng, Jiang Dong-Bin, Sun Li, Guo Yi, Wang Xiao-Dong, Zhu Qi-Hua, Zhang Xiaomin, Liu Hua, Wang Fang, Huang Xiao-Jun, Wang Xiao, Zeng Xiao-Ming, Wang Feng-Rui, Deng Wu, Zhou Kai-Nan, and Xie Xu-Dong

Subjects

Femtosecond pulse shaping, Optics, Materials science, Streak camera, business.industry, Streak, General Physics and Astronomy, Grating, Nanosecond, business, Ultrashort pulse, Bandwidth-limited pulse, Pulse (physics)

Abstract

We observed the characteristics of high energy nanosecond chirped pulse by spectral-resolved streak camera，which works well with energetic chirped pulse of nanosecond pulse duration. At the same time，it can monitor the alignment of grating compressor. The measurement results show that the pulse generated by PW demonstration facility is linearly chirped，verifying the compressibility of amplified nanosecond pulse.

Published

2007

27. Evaporation self-assembly method to fabricate high-quality polystyrene microsphere colloid crystal

Author

Dong Peng, Yi Gui-Yun, and Wang Xiao-Dong

Subjects

Materials science, Scanning electron microscope, Evaporation, General Physics and Astronomy, Nanotechnology, Suspension (chemistry), Crystal, chemistry.chemical_compound, Colloid, chemistry, Chemical engineering, Phase (matter), Polystyrene, Self-assembly

Abstract

Evaporation self-assembly method, which is used to assemble sub-micrometer polys tyrene microspheres, is presented in this paper. In this process the polystyrene microspheres are effectively assembled at the gas-liquid interface of suspensio n as moisture evaporates at fixed temperature. The scanning electron microscope shows that the three-dimensional colloidal assemblies have regular close-packed face-centered cubic structure. It was shown that the evaporation was blocked by the polystyrene colloid crystals growing at the gas-liquid interface, and the am ount of the polystyrene microspheres transferred to the colloid crystals from th e suspension in unit time increased with the area of the assemblies. High-qualit y polystyrene colloid crystals can be assembled when not changing or decreasing the phase concentration, whose changes can be controlled by adjusting the assemb ly area and the evaporation temperature.

Published

2006

28. Optical characteristics of DBR with inhomogeneous graded interfaces

Author

Tan Man-Qing, He Guorong, Wu Xuming, Wang Xiao-Dong, Wang Qing, and Cao Yulian

Subjects

Wavelength, Optics, Materials science, business.industry, General Physics and Astronomy, Optoelectronics, Characteristic matrix, business, Layer (electronics), Reflectivity, Refractive index, Phase matching

Abstract

Optical properties of Al0.9Ga0.1As/AlyGa1-yAs/GaAs/AlxGa1-xAs DBR with inhomogeneous graded interfaces has been investigated by using characteristic matrix method. The refractive index model and the analytic characteristic matrix of graded interfaces are obtained. The reflectance spectrum and the reflective phase shift are calculated for GaAs/Al0.9Ga0.1As DBR and graded interfaces DBR by using characteristic matrix method. The effect of graded interfaces on the optical properties of DBR is discussed. The result shows an extra graded phase matching layer must be added in front of the graded interfaces DBR to fulfil the conditions of phase matching at central wavelength. The accurate thickness of phase matching layer is calculated by optical thickness approximation method.

Published

2006

29. Threshold and saturation properties of two-dimensional random lasers and mode selection

Author

Lyu Jian-Tao, Fan Ting, Wang Xiao-dong, Liu Hai, Wang Chun, and Liu Jin-Song

Subjects

Materials science, business.industry, Finite-difference time-domain method, Mode (statistics), Physics::Optics, General Physics and Astronomy, Rate equation, Laser, Computational physics, law.invention, symbols.namesake, Optics, Maxwell's equations, law, symbols, Saturation (chemistry), business, Lasing threshold, Intensity (heat transfer)

Abstract

Based on the time dependent theory of random lasers, which was established via combining Maxwell equations with the rate equations of a four-level atomic system, the output intensity of lasing modes varying with the pump rate and area as well as the medium's size and shape is simulated for two-dimensional random media by use of the finite difference time domain method. Results show that the pump-rate dependence of the output intensity presents not only a threshold property, but also a saturation property, just like that of the lasing modes in conventional lasers. Based on the dependence of mode property on the medium's and pump's parameters, the mode-selection approaches are proposed for two-dimensional random lasers, which are quite different from those performed in conventional lasers.

Published

2006

30. Study of the multipass amplification of the chirped pulse and its inverse problem

Author

Zhang Bin, Zhou Kai-Nan, Liu Lanqin, Guo Yi, Wang Xiao-Dong, Zeng Xiao-Ming, Wei Xiaofeng, Zhu Qi-Hua, Yuan Xiaodong, Cai Bangwei, Huang Xiao-Jun, Wang Xiao, and chu xiao-liang

Subjects

Physics, education.field_of_study, Active laser medium, business.industry, Iterative method, Population, General Physics and Astronomy, Inverse problem, Pulse shaping, Pulse (physics), symbols.namesake, Fourier transform, Optics, symbols, business, education, Nonlinear Sciences::Pattern Formation and Solitons, Ultrashort pulse

Abstract

The multipass amplification characters of the chirped pulse in gain medium were studied with the Schrdinger equation and population equation. The inverse problem of multipass amplification of the chirped pulse was studied and simulated by means of the Split-step Fourier and iteration methods, to find the profile of the input pulse from the given output pulse and multipass amplification parameters. The results are useful for the multipass amplification and design of the pulse shaping of the chirped pulse.

Published

2005

31. Compensation of gain narrowing by using AOPDF in high-power ultra-short pulse laser systems

Author

Zhou Kai-Nan, Zhu Qi-Hua, Wang Xiao-Dong, Liu Lanqin, Guo Yi, Huang Xiao-Jun, Wang Xiao, Wei Xiaofeng, Zeng Xiao-Ming, Yuan Xiaodong, Peng Zhitao, Tang Xiao-dong, and Peng Han-sheng

Subjects

Femtosecond pulse shaping, Chirped pulse amplification, Materials science, business.industry, General Physics and Astronomy, Pulse duration, Laser, Pulse (physics), law.invention, Optics, Multiphoton intrapulse interference phase scan, law, business, Ultrashort pulse, Bandwidth-limited pulse

Abstract

Laser pulse durations are dominated by the spectral bandwidths in chirped pulse amplification systems.Therefore,gain narrowing during amplification is one of the most important factors that limits the minimal pulse durations of compressed pulses in high_power ultrashort_pulse laser systems.The gain narrowing can be compensated by applying an acousto_optic programmable dispersive filter(AOPDF) to the laser system.Here we present the experiments and results with an AOPDF for the 200_TW Ti:sapphire laser.The spectral bandwidth is increased from the original 27?nm to 44?nm.The pulse duration correspondingly is decreased from 60?fs to 30?fs and thus the output pulse power is doubled.

Published

2005

32. Chaotic time series forecasting using online least squares support vector machine regression

Author

Ye Meiying, Wang Xiao-Dong, and Zhang Haoran

Subjects

Series (mathematics), Computer science, SIGNAL (programming language), Chaotic, General Physics and Astronomy, computer.software_genre, Regression, Nonlinear Sciences::Chaotic Dynamics, Support vector machine, Hénon map, ComputingMethodologies_PATTERNRECOGNITION, ComputerSystemsOrganization_MISCELLANEOUS, Least squares support vector machine, Data mining, Time series, Algorithm, computer

Abstract

A chaotic time series forecasting method based on online least squares support vector machine (LS-SVM) regression is proposed. The difference between the online LS-SVM and offline support vector machine (SVM) is that the online LS-SVM is still effective for the chaotic system with a variation of the system parameter. Four chaotic time series, namely, Chen's system, Rssler system, Hénon map an d chaotic electroencephalogram (EEG) signal, are used to evaluate the performanc e. The results verify the ability of the method in chaotic time series predictio n.

Published

2005

33. Synthesis and characterization of three-dimensionally ordered macroporous polystyrene

Author

Dong Peng, Yi Gui-Yun, Liu Li-Xia, Chen Sheng-Li, and Wang Xiao-Dong

Subjects

chemistry.chemical_compound, Colloid, Materials science, chemistry, Polymerization, Silicon dioxide, Polymer chemistry, General Physics and Astronomy, Bragg's law, Polystyrene, Wetting, Colloidal crystal, Styrene

Abstract

Three-dimensionally ordered macroporous polystyrene was successfully synthesized through using silica sphere colloid crystals as template and in-situ polymeriza tion of styrene inside the template. The silica spheres with a diameter of 330 n m and 2.75% relative standard deviation were prepared by seeding method. For th e purpose of improving the wetting ability between the silica particles and styr ene, the hydrophilic surface of silica particles was switched to hydrophobic by 3-Aminopropyl-triethoxysilan (APS). Three-dimensionally ordered colloidal crystal was prepared by assembling the modified particles through a vertical depositio n technique at 30℃ for 48h. Styrene monomer was filled into the void of the tem plate and the polymerization of the styrene was carried out at 60℃ for 6h, being used (put the initiator in here) as initiator. The three-dimensionally ordered macroporous polystyrene was thus obtained by removing the silica template from polystyrene materials with 04% HF. The macroporous polystyrene shows a beautif ul iridescence in reflected light, which resulted from Bragg diffraction. SEM im ages indicated that the pores with a diameter of about 210nm were arrayed period ically and connected with each other.

Published

2004

34. STUDY OF SELF-ASSEMBLED InAs QUANTUM DOT STRUCTURE COVERED BY InxGa1-xAs(0≤x≤0.3) CAPPING LAYER

Author

Wang Xiao-Dong, Feng Song-Lin, Niu Zhi-Chuan, and Liu Hui-Yun

Subjects

X-ray absorption spectroscopy, Laser linewidth, Materials science, Photoluminescence, Quantum dot, business.industry, Transmission electron microscopy, General Physics and Astronomy, Optoelectronics, Substrate (electronics), business, Layer (electronics), Deposition (law)

Abstract

InAs self-assembled quantum dots(QDs) covered by 3-nm-thick InxGa1-xAs(0 less than or equal tox less than or equal to0.3) capping layer have been grown on GaAs(100) substrate. Transmission electron microscopy shows that InGaAs layer reduces the strain in the InAs islands,and atomic force microscopy evidences the deposition of InGaAs on the top of InAs islands when x = 0.3.The significant redshift of the photoluminescence (PL) peak energy and the reduction of PL linewidth of InAs quantum dots covered by InGaAs are observed. In addition,InGaAs overgrowth layer suppresses the temperature sensitivity of PL peak energy. Based on our analysis, the strain-reduction and the size distribution of the InAs QDs are the main cause of the redshift and temperature insensitivity of the PL respectively.

Published

2000

35. AB INITIO INVESTIGATIONS IN ORGANIC FERROMAGNET

Author

Y. Kawazoe, Sun Xin, Fu Rong-Tang, and Wang Xiao-Dong

Subjects

Physics, Condensed Matter::Materials Science, Ferromagnetism, Condensed matter physics, Magnetic moment, Energy level splitting, Plane wave, Ab initio, General Physics and Astronomy, Condensed Matter::Strongly Correlated Electrons, Spin (physics), Electronic band structure, Physical quantity

Abstract

“A Full Potential Linearized Augmented Plane Wave” scheme is applied to the study of the electronic and magnetic features on a simple organic ferromagnet modified by an organic high-spin segment (CH2) to trans-polyacetylene. Some physical quantities, i.e., band structure, the total and partial spin densities of states, magnetic moment and splitting energy, are shown quantitatively in our report. An anti-ferromagnetic order is expected and a specific π orbital is announced to be important for the magnetic features in an organic ferromagnet.

Published

1998

36. THEORETICAL AND EXPERIMENTAL STUDIES ON THE CHIRPED PULSE MULTIPASS AMPLIFICATION IN DOUBLE SIDE PUMPED Ti:SAPPHIRE

Author

Peng Han-sheng, Zhang Shu-Kui, Man Yong-Zai, Zhou Pi-Zhang, Wang Qing-Yue, Wen Guo-Qing, and Wang Xiao-Dong

Subjects

Optics, Materials science, business.industry, law, Amplifier, Sapphire, General Physics and Astronomy, business, Laser, Optical parametric amplifier, Ultrashort pulse, law.invention, Pulse (physics)

Abstract

A novel and more realistic calculation model and method for multipass laser pulse amplification has been put forward based upon the double side pumping scheme. We present here the systematic calculation and analysis on the amplification characteristics of the double side pumped confocal cavity Ti:sapphire amplifier and the chirped pulse multipass amplification through a new amplification configuration. Our experimental results show good agreement with the calculations. With such amplifier,the pass number is noticably reduced and some electro optical elements in regenerative amplifiers have been omitted.

Published

1997

37. Optical constants of sol-gel derived TiO2 films characterized by spectroscopic ellipsometry

Author

Wang Sheng-Zhao, Shen Jun, Wang Xiao-Dong, and Zhang Zhi-Hua

Subjects

Materials science, Ellipsometry, Analytical chemistry, General Physics and Astronomy, Substrate (electronics), Molar absorptivity, Microstructure, Dip-coating, Refractive index, Titanate, Sol-gel

Abstract

Nanostructured titanium oxide films were deposited on silicon substrate via sol-gel dip coating method with tetrabutyl titanate as precursor. With reflective spectroscopic ellipsometry, the ellipsometric parameters Ψ and Δ of TiO2 films were measured. Then, with the Cauchy model, the ellipsometric data were fitted, and both the thickness and the optical constants at 380—800 nm wavelength of the films were obtained. A comparison was made between the reflectance of the films derived with the spectrophotometer and the simulated results. Meanwhile, the thickness of the films was calculated by interference method. Moreover, with the atomic force microscopy the surface microstructures of the films annealed at different temperatures were observed, and the relationship between the surface microstructures and optical constants of films was further discussed. The results showed that Cauchy model works well in describing the dispersion relationship of the TiO2 films, and the variation rules of optical constants （the refractive index, the extinction coefficient） with wavelength were obtained. The optical constants of the films were related with the microstructure. Those simulated reflectance spectrum accorded well with the measured result. And with a deviation of only 25%, the calculated value of the thickness was in accordance with which was obtained by spectroscopic ellipsometry.