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Journals >
Chinese Journal of Lasers
Contents
2010
Volume: 37 Issue 5
48 Article(s)
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Research Article
LD Pumped Acoustic-Optic Q-Switched Nd:YVO4 Slab Laser
Yan Ying, Zhang Hengli, Li Jing, Liu Yang, Sha Pengfei, and Xin Jianguo
The output characteristics of an acoustic-optic (AO) Q-switched laser diode (LD) stacks partially end-pumped Nd:YVO4 slab laser was demonstrated. A stable cavity was employed,the curvature radius of input mirror was 500 mm,the transmission of the output mirror was 35%,and the cavity length is 110 mm. The size of the 0.
The output characteristics of an acoustic-optic (AO) Q-switched laser diode (LD) stacks partially end-pumped Nd:YVO4 slab laser was demonstrated. A stable cavity was employed,the curvature radius of input mirror was 500 mm,the transmission of the output mirror was 35%,and the cavity length is 110 mm. The size of the 0.3% Nd:YVO4 slab crystal was 12 mm×10 mm×1 mm,with a-cut and the c-axis along its 12 mm-direction. At pumping power of 104 W and repetition rate of 40 kHz,the average output power of 40 W and single pulse energy of 1 mJ were achieved with an optical-to-optical efficiency of 38.4% and pulse width of 42.2 ns;at repetition rate of 20 kHz,the average output power of 33.3 W and single pulse energy of 1.66 mJ were achieved with the pulse width of 21.1 ns..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1162 (2010)
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Compact,Stable,Tunable Ti:Sapphire Laser
Lu Huadong, Su Jing, Li Fengqin, Wang Wenzhe, Chen Yougui, and Peng Kunchi
By implementing astigmatism compensation of the laser resonator,selecting stable operation conditions as well as optimizing the mode match between light fields and tuning elements,we design and build a stable single-frequency continuous-wave (CW) all-solid-state Ti:sapphire laser with short cavity length. The pump sour
By implementing astigmatism compensation of the laser resonator,selecting stable operation conditions as well as optimizing the mode match between light fields and tuning elements,we design and build a stable single-frequency continuous-wave (CW) all-solid-state Ti:sapphire laser with short cavity length. The pump source is a homemade CW single-frequency green laser. Under the pump power of 4 W,the output power of 670 mW at the wavelength of 780 nm is obtained. The intensity fluctuation of the output laser is less than ±0.4% during 1 h,and the beam quality factor M2<1.1. After the laser resonator is locked on a confocal reference cavity with an electronic servo-system,the frequency stabilities are better than ±188 kHz and ±3.28 MHz over 10 s and 15 min respectively in the totally tunable range from 750 nm to 810 nm..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1166 (2010)
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RTP Type-II Critical Phase-Matched 542.7 nm Green Laser
Li Yongliang, Jiang Huilin, and Zhang Lizhong
An all solid-state doubling frequency continuous-wave green laser at 542.7 nm is reported. By using a three-mirror folded cavity resonator and pumping the Nd:YVO4 crystal whose doping Nd3+ concentration is 0.2% (atom fraction) with a 20 W output power laser diode (LD),a green laser at 542.7 nm is obtained by reasonably
An all solid-state doubling frequency continuous-wave green laser at 542.7 nm is reported. By using a three-mirror folded cavity resonator and pumping the Nd:YVO4 crystal whose doping Nd3+ concentration is 0.2% (atom fraction) with a 20 W output power laser diode (LD),a green laser at 542.7 nm is obtained by reasonably chosing a 10 mm long type II critical phase matching RbTi OPO4 (RTP) crystal to intra-cavity doubling frequency. When the incedent pump power is 19 W,the maximal output power is 2.4 W,the optical-optical conversion efficiency is up to 13%,the power stability in half an hour is better than ±2.8%,and the M2 factor is 1.22..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1172 (2010)
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Evaluating Specifications on Coupled Pump Distribution in LDA Side-Pumped Rod Gain Medium
Deng Qinghua, Ding Lei, He Shaobo, Tang Jun, Xie Xudong, Lu Zhenhua, and Dong Yifang
In laser diode array (LDA) side-pumped module,coupling system with high efficiency and optimized pump distribution is very important. To evaluate different coupling systems,evaluating specifications are put forward. Because different requirements are put on LDA side-pumped modules used in laser oscillator and as amplif
In laser diode array (LDA) side-pumped module,coupling system with high efficiency and optimized pump distribution is very important. To evaluate different coupling systems,evaluating specifications are put forward. Because different requirements are put on LDA side-pumped modules used in laser oscillator and as amplifiers,different specifications are set up for laser modules and amplifier modules. Calculating results of different pumping intensity distributions of laser modules and amplifier modules show that these specifications can not only show pump depositing efficiency and uniformity of the intensity distribution in the gain modules,but also the matching degree between pump intensity distribution in the laser module and laser oscillating modes..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1176 (2010)
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Frequency Stabilized Diode Laser Based on Cesium Molecular Saturated Absorption Spectroscopy
Meng Tengfei, Wu Yuelong, Ji Zhonghua, Wu Jizhou, Zhao Yanting, and Jia Suotang
One part of the saturated absorption spectroscopy on cesium molecules near 780 nm at the absorption band X1Σ+g→B1Πu is obtained. The position of cesium molecular saturated absorption spectroscopy can be determined by 5S1/2(F=2)→5P3/2(F′=2) resonance line of the saturated absorption spectroscopy on 87Rb atom. The five a
One part of the saturated absorption spectroscopy on cesium molecules near 780 nm at the absorption band X1Σ+g→B1Πu is obtained. The position of cesium molecular saturated absorption spectroscopy can be determined by 5S1/2(F=2)→5P3/2(F′=2) resonance line of the saturated absorption spectroscopy on 87Rb atom. The five absorption peaks of the saturated absorption spectroscopy are observed. The 780 nm diode laser is stabilized to the “R5” absorption peak. The frequency stability of the laser is better than 1.5 MHz in 800 s. It offers a new method to stabilize the 780 nm diode laser frequency by the saturated absorption peak of cesium molecules. This laser can be used to produce the ultracold ground state cesium molecules,and can be used as the frequency-doubled reference of optical communication range in 1560 nm..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1182 (2010)
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A New Package Structure for High Power Single Emitter Semiconductor Laser and Performance Analysis
Zhang Yanxin, Wang Jingwei, Wu Di, Yang Kai, Ma Youlong, and Liu Xingsheng
A new high power single emitter laser (F-mount) is reported. This package structure is different from the commercial products structure with C-mount,and it has an advantage of higher thermal conduction. The maximum output optical power of 13.3 W through this package structure is obtained under the testing condition of
A new high power single emitter laser (F-mount) is reported. This package structure is different from the commercial products structure with C-mount,and it has an advantage of higher thermal conduction. The maximum output optical power of 13.3 W through this package structure is obtained under the testing condition of continuous waves (CW) at 20 ℃ and the laser can still work well. There was no catastrophic mirror-damage (COMD) occurred on it. The maximum output optical power of 30.8 W is obtained under the testing condition of quasi-continuous wave (QCW). Moreover,the following parameters are calculated with coefficient of wavelength-shift versus temperature of 0.278 nm/℃,thermal resistance of 3.18 K/W,the characteristic temperature of 135 K at the threshold current at room temperature,the characteristic temperature of 743 K for the differential efficiency at room temperature. It has lower thermal resistance and better heat sink capability and higher output power than commercial single emitter laser packaged with C-mount structure..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1186 (2010)
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Theoretical Study of Tunable Mid-Infrared Radiation Based on Sum-Frequency Generation in Nonresonant Fresnel Phase Matching ZnSe and GaP Crystal
Zhuo Wang, Yuye Wang, and Jianquan Yao
Based on the theory of nonresonant Fresnel phase matching (FPM),tuning characteristics of second-harmonic generation (SHG) wave,the full-width at half-maximum (FWHM) acceptance bandwidth for total internal reflection angle,and the effective nonlinear coefficient of sum-frequency generation in ZnSe and GaP crystals are
Based on the theory of nonresonant Fresnel phase matching (FPM),tuning characteristics of second-harmonic generation (SHG) wave,the full-width at half-maximum (FWHM) acceptance bandwidth for total internal reflection angle,and the effective nonlinear coefficient of sum-frequency generation in ZnSe and GaP crystals are calculated under different polarization configurations. In theoretical calculation,the parameters,which have been reported to generate the tunable infrared waves by SHG in experiments,are adopted. The optimal quasi-phase-match conditions in ZnSe and GaP are summarized by comparing the simulated results,respectively. The calculated results show a sound theoretical basis for using FPM method to generate tunable mid-infrared wave in isotropic crystals..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1192 (2010)
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Quartz Crystal Birefringent Filter Used for Intracavity Yellow Raman Laser
Li Shuqing, Wu Fuquan, Yin Yanxue, and Su Fufang
Based on the birefringent index dispersion effect,a quartz crystal birefringent filter is constructed with quartz crystal and polarizer for picking up the 590 nm spectral line in an intracavity Raman yellow laser. The operating principle is analyzed by means of Müller matrix and Stokes parameters. The filtering pe
Based on the birefringent index dispersion effect,a quartz crystal birefringent filter is constructed with quartz crystal and polarizer for picking up the 590 nm spectral line in an intracavity Raman yellow laser. The operating principle is analyzed by means of Müller matrix and Stokes parameters. The filtering performance is tested by AQ-6315A spectrometer with an intracavity Raman yellow laser as light source. The experimental results show that the 1180 nm spectral line is extracted after filtering,and the purity of 590 nm frequency laser has been ensured. The structure of this birefringent filter is simple and the operation is convenient. At the same time,it does not change the direction of light beam..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1198 (2010)
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A Novel Global Optimization Method to Design Laser Parameters with Artificial Neural Network and Genetic Algorithm
Xiao Guangzong, Long Xingwu, Zhang Bin, Wu Suyong, Zhao Hongchang, and Chen Wenxue
A novel global optimization method based on artificial neural network and genetic algorithm is proposed for laser parameters design. An artificial neural network (ANN) is built to simulate the mechanism of the effects of laser parameters on its output power. And then the laser parameters are further optimized with gene
A novel global optimization method based on artificial neural network and genetic algorithm is proposed for laser parameters design. An artificial neural network (ANN) is built to simulate the mechanism of the effects of laser parameters on its output power. And then the laser parameters are further optimized with genetic algorithm (GA) with the above obtained network as objective function. As an example,parameters of a typical plano-concave cavity He-Ne laser are globally optimized to testify the feasibility and effectiveness of the method. As concluded from the optimization experiment,the mean square error between the experimental data and simulation data from laser output power network is only 0.0127 mW. The output power of laser with parameters optimized by genetic algorithm is larger than the other laser with the same cavity length,which proves the effectiveness of the method..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1203 (2010)
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A New Method for the Estimate of z-Direction Ring Laser Gyro Drift Based on Attitude Determination
Wu Saicheng, Qin Shiqiao, Wang Xingshu, and Hu Chunsheng
In the single-axial rotation inertial navigation system using ring laser gyro (RLG),the errors of the inertial elements can be counteracted automatically because of rotating around the z-direction axis of inertial measurement unit (IMU),so the performance of single-axial rotating inertial navigation system is mostly de
In the single-axial rotation inertial navigation system using ring laser gyro (RLG),the errors of the inertial elements can be counteracted automatically because of rotating around the z-direction axis of inertial measurement unit (IMU),so the performance of single-axial rotating inertial navigation system is mostly determined by the estimate precision of z-direction gyro drift. A method to estimate the drift of z-direction gyro based on attitude determination is put forward in this paper,and the theoretical and experimental results are obtained. The experiments show that this method in this paper can estimate the drift of z-direction gyro efficaciously,and the result of navigation is excellent..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1209 (2010)
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Theoretical Study on Single Attosecond Pulse Generated by Midinfrared Intense Laser Pulse
Du Xiaojie, Zhou Xiaoxin, and Li Pengcheng
We investigate the generation of isolated broadband attosecond pulses for a model of He atom driven by a midinfrared (MIR) laser pulse in combination with a ultraviolet (UV) controlling pulse. By solving the time-dependent Schrdinger equation with split-operator method,the high-order harmonic and attosecond pulse are
We investigate the generation of isolated broadband attosecond pulses for a model of He atom driven by a midinfrared (MIR) laser pulse in combination with a ultraviolet (UV) controlling pulse. By solving the time-dependent Schrdinger equation with split-operator method,the high-order harmonic and attosecond pulse are obtained with MIR and UV pulses,whose wavelengths are 1400 nm and 78 nm respectively. By adjusting the time delay of two lasers,we can enhance the contribution of one electron trajectory and suppress the other electron trajectory. Thus we obtain a shorter isolated attosecond pulse,compared with the pulse produced by the He atom driven by the infrared and ultraviolet fields..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1213 (2010)
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A High Accuracy and Fast Iterative Algorithm for Phase Retrieval
Huang Lixin, Yao Xin, Cai Dongmei, Guo Yongkang, Yao Jun, and Gao Fuhua
Based on conventional GS algorithm,an accuracy and fast algorithm for phase retrieval is presented. This algorithm,which can be called the accelerated angular spectrum iterative approad,induces a gradient by using the angular transfer functions. The intensity distribution of three planes,e.g. an incident plane and two
Based on conventional GS algorithm,an accuracy and fast algorithm for phase retrieval is presented. This algorithm,which can be called the accelerated angular spectrum iterative approad,induces a gradient by using the angular transfer functions. The intensity distribution of three planes,e.g. an incident plane and two emergent planes,is employed to retriere the phase distribution of incident optical field. The simulation result shows this algorithm can retrieve the phase distribution of an arbitrary two-dimensional incident optical field in high accuracy. The retrieval accuracy of complicated optical field is greatly enhanced. Robustness and sensibility of this algorithm are evaluated and the algorithm exhibits good convergence..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1218 (2010)
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Detecting Micro-Doppler Effect of Micro-Motion Dynamics by Laser Coherent Radar of 1550 nm
Sun Yang, Zhang Jun, and Fan Yafu
A system of detecting micro-Doppler effect based on laser coherent radar worked in the 1550 nm wavelength is presented,and experimental research on micro-Doppler effect of detecting the dynamic target is developed. The time domain signal of the returns is decomposed into a set of components that are represented by diff
A system of detecting micro-Doppler effect based on laser coherent radar worked in the 1550 nm wavelength is presented,and experimental research on micro-Doppler effect of detecting the dynamic target is developed. The time domain signal of the returns is decomposed into a set of components that are represented by different wavelet scales. The micro-Doppler features are extracted by sorting the components that are associated with the vibrational/rotational motions of a target and reconstructed by inverse wavelet transform. After the extraction of micro-Doppler features,time-frequency analysis is employed to analyze the oscillation and to estimate the motion parameters. The analysis of experiment results show that micro-Doppler information of the dynamic target can be detected effectively by this system,and tiny vibration can be acquired effectively by analysis of multi-resolution analysis and time-frequency analysis of short-time..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1222 (2010)
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Study on Temporal Behaviour of One-Pulse-Process Plasma Electrodes Pockels Cell with 400 mm×400 mm Aperture
Wu Dengsheng, Zhang Xiongjun, Zheng Jiangang, Zhang Jun, and Tian Xiaolin
The one-pluse-process plasma electrodes Pockels cell has been established. Five pieces of KDP crystals with 50 mm×50 mm are inserted into the specific areas in the aperture instead of the one-piece crystal with 400 mm×400 mm to investigate the temporal behaviour of the Pockels cell. Owing to the optimum desig
The one-pluse-process plasma electrodes Pockels cell has been established. Five pieces of KDP crystals with 50 mm×50 mm are inserted into the specific areas in the aperture instead of the one-piece crystal with 400 mm×400 mm to investigate the temporal behaviour of the Pockels cell. Owing to the optimum designs,the full aperture high conductive plasma has been created,and the breakdown of the operating gas is stable. The measured switching efficiencies of full aperture are higher than 99.5%. At the neon pressure of 1200 Pa and 2000 Pa,the rise-times of the Pockels cell with full-scale KDP crystal are 78.4 ns and 80.7 ns,respectively..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1227 (2010)
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Experiment of Four-Dimensional Imaging with Single-Slit Streak Tube Lidar
Wei Jingsong, Wang Qi, Sun Jianfeng, and Gao Jian
A streak tube imaging lidar (STIL) system is established to finish a field imaging experiment. With thirty streak images piled up,reconstruction contrast map and range map of a target 702 m away are presented. Relationship between streak images and target detail is marked. The range resolution is better than 0.5 m in t
A streak tube imaging lidar (STIL) system is established to finish a field imaging experiment. With thirty streak images piled up,reconstruction contrast map and range map of a target 702 m away are presented. Relationship between streak images and target detail is marked. The range resolution is better than 0.5 m in the experimental result. Imaging precision affected by streak and divergence of laser beam is discussed..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1231 (2010)
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Ghost Analysis for Complex Optical Systems Based on ZEMAX
Cao Huabao, Lu Xingqiang, and Fan Dianyuan
Accessorial program is actually indispensable to implement the avoidance of ghost image in complex optical systems because common optical CAD software could not accomplish ghost analysis alone. This paper proposes a method that uses programs designed to deal with the output of ZEMAX,so as to export ghost image layout c
Accessorial program is actually indispensable to implement the avoidance of ghost image in complex optical systems because common optical CAD software could not accomplish ghost analysis alone. This paper proposes a method that uses programs designed to deal with the output of ZEMAX,so as to export ghost image layout conveniently. The executive results are accurate and the ghost image layouts of complex optical systems are visual and legible. This method could be applied to the high power laser systems design efficiently..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1236 (2010)
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Spectrally Resolved Multifocal Multiphoton Microscopy Using Microlens Array and Galvo Mirror Scanning
Li Heng, Shao Yonghong, Wang Yan, Qu Junle, An Ying, and Niu Hanben
We present a novel spectrum-resolved multifocal multiphoton microscopy (SR-MMM) that is capable of performing fast 2-dimensional (2D) spectral measurements of fluorescent samples with optical sectioning. Fluorescence emission from the excited lines on the sample is spectrally dispersed with a prism,and a CCD array is u
We present a novel spectrum-resolved multifocal multiphoton microscopy (SR-MMM) that is capable of performing fast 2-dimensional (2D) spectral measurements of fluorescent samples with optical sectioning. Fluorescence emission from the excited lines on the sample is spectrally dispersed with a prism,and a CCD array is used to acquire the spectrally resolved image. Spectrally resolved images of 512 pixel×512 pixel can be obtained by acquiring only 128 raw images when a 4×4 excitation foci array is used. Multi-color fluoresent beads,sample slide of a stained lily and pollen particles are used for spectrally resolved imaging experiment. The spectral measurement range is from 450 nm to 700 nm,and the spectral resolution is less than 3 nm..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1240 (2010)
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Fabrication of Micro Devices by Use of Optical Tweezers
Peng Fei, Yao Baoli, Lei Ming, Yan Shaohui, and Zhao Wei
Optical tweezers,as a powerful tool of manipulation of micro-objects,is commonly used for trapping micro-objects and controlling their movement. Making use of the highly focused heat energy at the laser focus and the transportation ability of the optical tweezers,the process of crystallization,the shape of crystal sepa
Optical tweezers,as a powerful tool of manipulation of micro-objects,is commonly used for trapping micro-objects and controlling their movement. Making use of the highly focused heat energy at the laser focus and the transportation ability of the optical tweezers,the process of crystallization,the shape of crystal separating out from solution,and the arrangement mode of the deposition from precipitation reaction can be controlled precisely,which may be used as a means of making micro devices. The laser-induced crystallization method and the laser-assisted precipitation method are used to make micro devices with the copper sulfate and the calcium carbonate as the based materials,respectively. Different factors influencing grow speed of crystals are investigated. The condition of precipitation reaction fitting to the laser-assisted precipitation method is discussed. By comparing,the method of laser-induced crystallization works more efficiently,while the method of laser-assisted precipitation can produce more stable devices. The experimental equipment and the proposed methods not only spread the application domain of optical tweezers but also provide a new way for fabrication of micro devices..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1245 (2010)
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Theoretical Analysis of Dual Core Fiber Long Period Grating Based on Supermode
Zheng Jingjing, Ning Tigang, and Jian Shuisheng
Based on supermodes derived from coupled mode theory,we present the formula to analyze dual core fiber gratings with rectangle-shaped index change,and give its general solution. To the same core with same synchronous uniform grating model,we present a simple express of the solution for each core that can be straightly
Based on supermodes derived from coupled mode theory,we present the formula to analyze dual core fiber gratings with rectangle-shaped index change,and give its general solution. To the same core with same synchronous uniform grating model,we present a simple express of the solution for each core that can be straightly used in calculation. In this model,the effect of grating is shifting resonant wavelength and adding different additional phases for different wavelengths and it could be used for adjusting the output spectrum of the dual core fiber,and controlling on its additional phase. To the model that gratings are different in index change,we give a numerical simulating result,and discuss its impact on performance..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1275 (2010)
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Multi-Longitudinal-Mode Fiber Laser Based Displacement Sensor
Luo Jianhua, Zhang Hao, Liu Bo, Jia Chenglai, Yan Shaolin, and Ma Xiurong
A multi-longitudinal-mode Bragg reflector (DBR) fiber laser based displacement sensor is reported and implemented. Using cantilever structure,the fiber laser sensor is on the basis of beat frequency demodulation. When the free end of cantilever has a displacement,the longitudinal mode beat (LMB) will change correspondi
A multi-longitudinal-mode Bragg reflector (DBR) fiber laser based displacement sensor is reported and implemented. Using cantilever structure,the fiber laser sensor is on the basis of beat frequency demodulation. When the free end of cantilever has a displacement,the longitudinal mode beat (LMB) will change correspondingly. Within the displacement range of -60.17-59.75 mm,the LMB changes from 273.85-272.908 MHz linearly,with a linearity of 0.9993,which agrees with the theoretically analysis. The sensor has a high repeatability and a precision of 3.8×10-3 mm..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1280 (2010)
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Design of Optical Comb Filter with Multi-Concatenated Linearly Chirped Fiber Gratings
Ma Weitao, Zhou Jun, Xu Tiefeng, Zhang Lingfen, and Yuan Hongwei
A novel optical dense comb filter is proposed,which is composed of many identical linearly chirped fiber Bragg gratings (LCFBG).The spectral characteristics of optical dense comb filter are numerically simulated and analyzed. The results show that the channel spacing of filter is controlled by the length of Fabry-Perot
A novel optical dense comb filter is proposed,which is composed of many identical linearly chirped fiber Bragg gratings (LCFBG).The spectral characteristics of optical dense comb filter are numerically simulated and analyzed. The results show that the channel spacing of filter is controlled by the length of Fabry-Perot (F-P) cavity which is equal to that of unit grating. By choosing optimal structure parameters of grating,for example,the total chirp,the index modulation depth of unit grating and the concatenated grating number,the reflection spectrum of the filter shows the characteristics of high reflectivity,large bandwidth and multi-channels. For the multi-concatenated gratings,which are easy to be made with a single grating mask,the high reflection of filter can be achieved with a low index modulation depth..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1284 (2010)
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Basic Theoretical Model and Its Experimental Investigation for Standard Embedded Sensing Fiber Bragg Grating Packaging
Wu Yonghong, Shao Changjiang, Qu Wenjun, Zhou Wei, and Cai Haiwen
Aiming at the most common and reliable way of packaging-embedded packaging,theoretical and experimental studies on standard packaging design are conducted. Through the analysis of boundary conditions and deformation compatibility conditions of established optical fiber strain transferring analytical model as well as ex
Aiming at the most common and reliable way of packaging-embedded packaging,theoretical and experimental studies on standard packaging design are conducted. Through the analysis of boundary conditions and deformation compatibility conditions of established optical fiber strain transferring analytical model as well as existing main strain transferring characteristic equations,a determined strain transferring characteristic equation is developed,and thus an universal strain transferring relationship is established,which may serve as a basic theoretical model for standard embedded fiber Bragg grating (FBG) packaged structure design. The tested results of packaged models show that strain transferring relationship sestablished according to classic shear lag theory and Ansari′s fiber optical strain transferring analytical model are more reliable for packaged structures containing relative low modulus adhesive materials..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1290 (2010)
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A High Sensitivity Concentration Sensing Demodulation Technique
Zhao Hongxia, Ding Zhiqun, Wang Jinxia, Fang Xiaohui, Jia Hui, and Bao Jilong
There are wide range of potential applications about long period fiber grating (LPFG),in order to utilize LPFG as sensing element,it is necessary to develop low cost and high precision wavelength demodulation schemes. An high sensitivity technique for LPFG sensor signal demodulation is introduced. A interferometer base
There are wide range of potential applications about long period fiber grating (LPFG),in order to utilize LPFG as sensing element,it is necessary to develop low cost and high precision wavelength demodulation schemes. An high sensitivity technique for LPFG sensor signal demodulation is introduced. A interferometer based on fiber ring mirror and two LPFGs are designed,the wavelength-shift of sensor grating affected by the measured concentration is converted into variation of time-interval between negative-going pulses that is scanning by F-P tunable filter controlled by PZT. The experiment results show that the sensing sensitivity of this system is 0.04 ms·L /g,with the sucrose solution concentration being from 0 to saturated..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1294 (2010)
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Application of Fiber Bragg Grating Sensors in Monitoring Curing Process of Carbon Fiber Composite
Jia Ziguang, Ren Liang, Li Hongnan, Ren Mingfa, and Huang Qizhong
Basic principle and merits of fiber Bragg grating (FBG) are introduced. A novelty strain sensor and a temperature sensor with FBG technology are presented. Theoretical and experimental analyses of FBG sensor are implemented. The variations of temperature and strain profiles during curing process are experimentally expl
Basic principle and merits of fiber Bragg grating (FBG) are introduced. A novelty strain sensor and a temperature sensor with FBG technology are presented. Theoretical and experimental analyses of FBG sensor are implemented. The variations of temperature and strain profiles during curing process are experimentally explored by embedded FBG sensors. However,the thermal drift of FBG strain sensor should be considered during the strain measurement. The experimental results indicate that application of FBG sensor on monitoring the composite in curing process is suitable..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1298 (2010)
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Beam Transmission
Coherent Combination Analyses of Rectangle Spot Beams Array with Phase-Locked Closing-Loop
Yi Hengyu, Su Yi, Tang Chun, and Wang Mu
Beams combination is an important way for development of high power solid state lasers,and the phase control electronics contributes greatly to the success of the coherent combining. The method of phase detection for beamlets in a 4 rectangle spot beams array is analyzed,and its mathematical model of coherent combinati
Beams combination is an important way for development of high power solid state lasers,and the phase control electronics contributes greatly to the success of the coherent combining. The method of phase detection for beamlets in a 4 rectangle spot beams array is analyzed,and its mathematical model of coherent combination under phase-locked condition is established. A high-speed wavefront sensor is used to sample the wavefront of one beamlet in laser array,and phase difference between the beamlet and reference beam is detected by the way of heterodyne method from the beat frequency signal,which results from the interference of the reference beam with each beamlet. The phase difference is used to actively control the phase modulator of the beamlet,and then all of the output phases are exactly aligned. Some simulated waveform signals changing versus time are presented during the locking loop is closed,and it is also simulated that the intensity distribution of combined far-field spots changes with phase difference and random aberration among these beamlets,which is compared with that when the locking loop is opened. It is concluded from the simulated results that all output phases of each beamlets can be exactly aligned when the locking loop is closed. The control precision and condition of closing-loop are also analyzed..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1253 (2010)
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Application of G-S Algorithm to the Control of Beam Near-Field Intensity
Yu Hao, Huang Linhai, Rao Changhui, and Jiang Wenhan
A method based on the G-S algorithm is presented,using beam angular spectrum transmit formula to iterate the phase that the compensation for the near-field intensity distribution requires. The iterative algorithm used in the control of beam near-field intensity is presented. Based on this algorithm,an adaptive optics s
A method based on the G-S algorithm is presented,using beam angular spectrum transmit formula to iterate the phase that the compensation for the near-field intensity distribution requires. The iterative algorithm used in the control of beam near-field intensity is presented. Based on this algorithm,an adaptive optics system to achieve control of beam near-field intensity is designed,and numerical simulation and experiments verify the feasibility of this method. The experimental results show that the similarity value ε,which is the distribution of beam near-field amplitude comparing to the ideal distribution of the amplitude,has been improved from 0.718 to 0.966 when the adaptive system working. This indicates that the system is effective in controlling the beam near-field intensity..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1259 (2010)
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Influence of Wavefront Distortion in Single Laser Channel on Phase Control in Coherent Beam Combination System
Zhou Pu, Ma Haotong, Ma Yanxing, Wang Xiaolin, Xu Xiaojun, and Liu Zejin
Phase-only spatial light modulators are employed to generate controllable wavefront distortion,which is incorporated into a coherent beam combining system to investigate the influence of wavefront distortion in single laser channel on phase control system. Experimental results show that the phase control system is almo
Phase-only spatial light modulators are employed to generate controllable wavefront distortion,which is incorporated into a coherent beam combining system to investigate the influence of wavefront distortion in single laser channel on phase control system. Experimental results show that the phase control system is almost not affected in the case of wavefront distortion with small root mean square (RMS) value (i.e.,RMS<π/10). As an increase in the wavefront distortion,the optical phase cannot be totally controlled,residual phase error goes with excursion in the interference patterns exists in the system. When the RMS value of the wavefront distortion is as large as π,the phase control system is in invalidation state and the beamlets cannot be phase locked. Our experimental results present reference for designing and manufacturing high energy laser system based on coherent beam combining..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1265 (2010)
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Holography and Information Processing
Integral Color Hologram of Virtual 3D Object Generated by Integral Photography
Jin Hongzhen, Lou Yimin, Wang Hui, and Ma Lihong
Based on integral photography and computer graphics,a new method for recording color holograms of virtual 3D objects using single wavelength laser is proposed. Three horizontal parallax only integral photography (IP) images whose colors correspond to tricolor are calculated by simulating integral photography. IP images
Based on integral photography and computer graphics,a new method for recording color holograms of virtual 3D objects using single wavelength laser is proposed. Three horizontal parallax only integral photography (IP) images whose colors correspond to tricolor are calculated by simulating integral photography. IP images are illuminated with the coherent beam from the opposite side. Three images of the virtual 3D object are reconstructed and overlapped on a particular image plane by three liner micro-lens arrays. With interfering the reconstructed 3D images and the reference beam after a single exposure,a color hologram is created. Experimental implementation of the new method for a simple case is presented..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1304 (2010)
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Laser Manufacturing
Influence of Nano-SiC Particle on Microstructure and Properties of Laser Clad NiFeBSi Alloy Coating
Li Yaozhong, Wang Cunshan, Li Ting, and Yao Biao
NiFeBSi alloy coating and NiFeBSi+mass fractiont 10% nano-SiC composite coating were prepared by laser cladding on the 45# steel,respectively. Microstructural characterization of these coatings were analyzed by means of X-ray diffraction (XRD) and scanning electron microscopy (SEM),micro-hardness and tribological prope
NiFeBSi alloy coating and NiFeBSi+mass fractiont 10% nano-SiC composite coating were prepared by laser cladding on the 45# steel,respectively. Microstructural characterization of these coatings were analyzed by means of X-ray diffraction (XRD) and scanning electron microscopy (SEM),micro-hardness and tribological properties were measured using Vickers micro-hardness tester and wear testing machine. The results show that the microstructure of the NiFeBSi alloy coating is featured with FeNi3+α-Fe eutectoid structure distributed between the γ(Fe,Ni) dendrites. When mass fraction 10% nano-SiC was added into the NiFeBSi alloy coating,besides FeNi3+α-Fe eutectoid structure,four kinds of carbides are also formed between γ(Fe,Ni) dendrites due to decomposition of SiC particles. The hardness and wear resistance of the NiFeBSi alloy coating are obviously improved due to enhancement of multi-carbide and refinement of FeNi3+α-Fe eutectoid structure..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1356 (2010)
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Weld Microstructure Characteristics of Dual Laser Beam Multi-Layer Welded High Strength Steel with Filler Wire
Yin Jie, Li Liqun, Tao Wang, and Zhang Xin′ge
In present work,the 16 mm thick 11CrNi3MnMoV low alloy high strength steel plates are well joined by dual laser beams welding with hot filler wire,and the strength of joint is higher than parent metal. The microstructure characteristics of primary laser weld,the secondary remelting weld,heat treatment weld,and the effe
In present work,the 16 mm thick 11CrNi3MnMoV low alloy high strength steel plates are well joined by dual laser beams welding with hot filler wire,and the strength of joint is higher than parent metal. The microstructure characteristics of primary laser weld,the secondary remelting weld,heat treatment weld,and the effect of microstructure transformation on performances of weld are investigated. The results indicate that,in dual laser beams welding with filler wire,the microstructure of weld is mainly bainite and acicular ferrite,which should be refined by remelting and heat treatment. It’s distinct that the microstructure in reheated zone is similar to that of heat affected zone,and consists of normalized and tempered bainite. Moreover,the acicular ferrite in inner layer weld is much more than that in last layer weld. Meanwhile,a large number of parallel and compact ferrite exist in weld,which improve the tough of weld joint..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1361 (2010)
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Numerical Simulation of Metal Sheet Velocity by Laser Shock Forming with Semi-Die
Ren Aiguo, Zhang Yongkang, Jiang Yinfang, Pei Xu, Yu Shuisheng, and You Jian
The finite element software ABAQUS was used to simulate the processing of constant elastic alloy metal sheet by laser shock waves with semi-die process. The effects of pulse laser energy on metal sheet movement velocity and forming accuracy were investigated. The law of sample velocities in different regions at the sam
The finite element software ABAQUS was used to simulate the processing of constant elastic alloy metal sheet by laser shock waves with semi-die process. The effects of pulse laser energy on metal sheet movement velocity and forming accuracy were investigated. The law of sample velocities in different regions at the same energy was discussed. The results showed that there was no collision between the metal sheet and the concave die when the energy was low. The central node vibrated around the equilibrium position,but the amplitude of vibration decreased gradually and reached zero finally. When the energy was high,the metal sheet collided with the bottom of dies severely,and then the sheet had a reverse movement. The velocity fluctuated slowly for some time and then reached equilibrium state eventually. A good quality waveform sample could be obtained by adjusting pulse laser energies. It was concluded that the software ABAQUS could predict metal sheet velocity in the laser shock forming (LSF) process,and it provides the reference for further study on LSF..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1368 (2010)
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Analysis and Optimization for Auto Roof to Body-Side Laser Welding
Lu Bingbing
The wide use of galvanized steel in automobile manufacturing brings much challenge to the laser welding process of roof to body-side. The fillet joint is the most effective way to solve the problem of welding pores in the process of laser welding. However,there is little research on this complicated joint process. Focu
The wide use of galvanized steel in automobile manufacturing brings much challenge to the laser welding process of roof to body-side. The fillet joint is the most effective way to solve the problem of welding pores in the process of laser welding. However,there is little research on this complicated joint process. Focused on this problem,taking metallographic size of welding seams as weld quality criteria,response surface methodology (RSM) is used to study the influence of laser beam on welding seam quality. Key welding process parameters and the optimum welding parameters are concluded..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1375 (2010)
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Analysis of Related Factors to Affect WC Ceramic-Metal Composite Coatings Prepared by Laser Induction Hybrid Rapid Cladding
Zhou Shengfeng, and Zeng Xiaoyan
The related factors to affect WC ceramic-metal composite coatings prepared by laser induction hybrid rapid cladding (LIHRC) are investigated. The results show that,with the preheated temperature of substrate increasing,the efficiency of LIHRC increases. The substrate types also have a significant effect on the efficien
The related factors to affect WC ceramic-metal composite coatings prepared by laser induction hybrid rapid cladding (LIHRC) are investigated. The results show that,with the preheated temperature of substrate increasing,the efficiency of LIHRC increases. The substrate types also have a significant effect on the efficiency of LIHRC,which is determined by the thermophysical properties (i.e. melting point,resistivity and permeability). With the laser specific energy and the preheated temperature of substrate increasing,the dilution of the composite coating increases,while the dilution decreases with the increase in the powder density per area. Moreover,the efficiency of the composite powder not only depends on the laser processing parameters and the preheated temperature of substrate,but also relates to the weight percent of WC particle and the types of the bonding metal during LIHRC..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1380 (2010)
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Influence of Interaction Parameters on High Power Laser Induced Shockwave in Magnesium Alloy
Yu Shuisheng, Yao Hongbing, Wang Fei, Yuan Bei, and Zhang Yongkang
In order to study the effect of overlay and laser power density on shockwave in laser shock processing to AZ31B magnesium alloy,the laser induced shockwave was measured by a polyvinylidene fluoride (PVDF) gauge with short rise time and high response frequency and a digital oscillograph. Based on the piezoelectric waves
In order to study the effect of overlay and laser power density on shockwave in laser shock processing to AZ31B magnesium alloy,the laser induced shockwave was measured by a polyvinylidene fluoride (PVDF) gauge with short rise time and high response frequency and a digital oscillograph. Based on the piezoelectric waves measured in the overlay geometry and direct ablation regime,pressure waves were obtained and compared;the pressure waves acquired in different laser power density conditions were also compared and analyzed. The research results show that the peak pressure of laser shockwave in the overlay geometry is about as eight times as it is in the direct ablation regime,and the duration time of the pulse is extended obviously. Below the dielectric breakdown threshold of the overlay,the peak pressure of laser shockwave is improved with the increase of the laser power density..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1386 (2010)
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Temperature Field Simulation on Laser Transmission Joining of PET Films and Titanium
Wang Xiao, Li Pin, Liu Huixia, Song Xinhua, and Xu Zhenkai
0.1-mm-thick PET films and 0.1-mm-thick titanium are joint using laser transmission joining technology. A 3D thermal model based on the finite element theory to simulate the temperature field on laser transmission joining of PET and titanium is established. With the ANSYS parametric design language (APDL) a moving supe
0.1-mm-thick PET films and 0.1-mm-thick titanium are joint using laser transmission joining technology. A 3D thermal model based on the finite element theory to simulate the temperature field on laser transmission joining of PET and titanium is established. With the ANSYS parametric design language (APDL) a moving super Gaussian distributed heat source is applied,and the distribution of the temperature field and the time to achieve quasi-steady-state temperature field are gained. Effect of process parameters,including laser power and scanning welding,on the joinging result is investigated,and the calculated joint width is obtained. Experimental data for joint width is collected. Very good agreement is achieved between the calculated values and the measured values. It shows that the model is reliable..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1391 (2010)
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Thermal Stress Cleaving of Al2O3 Ceramic Plate by Pulsed Laser
Liu Jian, Lu Jian, Ni Xiaowu, Dai Gang, and Chen Yanbei
In laser thermal stress cleaving of brittle materials using controlled fracture technique,the applied laser energy absorbed in a local area produces a tensile thermal stress that causes the material to separate along the moving direction of the laser beam. The material separation is similar to a crack extension and the
In laser thermal stress cleaving of brittle materials using controlled fracture technique,the applied laser energy absorbed in a local area produces a tensile thermal stress that causes the material to separate along the moving direction of the laser beam. The material separation is similar to a crack extension and the fracture growth is controllable. A three-dimensional finite element thermoelastic calculational model with the heat transfer theory is established to investigate the process when pulsed laser is applied to cut the Al2O3 ceramic plate. The temperature field and thermal stress field at the area irradiated by the laser are simulated. During the laser pulse,the distribution of the tensile stress and compressive stress with depth is obtained. The mechanism of crack propagation is investigated by analyzing the development of the thermal stress field during the process..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1398 (2010)
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Study on Characteristics of Laser-Resistance Hybrid Welding for Aluminum Alloy
Zhang Xin′ge, Li Liqun, Chen Yanbin, and Lei Zhenglong
Laser-resistance hybrid welding is used to weld LF6 aluminum alloy plates and the process characteristics are analyzed. Thanks to the interaction between laser and resistance heat,the weld depth and cross section area increase evidently. The aluminium alloy joints with full penetration are achieved with low laser power
Laser-resistance hybrid welding is used to weld LF6 aluminum alloy plates and the process characteristics are analyzed. Thanks to the interaction between laser and resistance heat,the weld depth and cross section area increase evidently. The aluminium alloy joints with full penetration are achieved with low laser power,resulting in the welding efficiency increasing and production cost reducing. The amount of pore in hybrid welding joints decrease compared with that of laser welding. Microstructure observation indicates that the β(Al8Mg5) strengthen phase in weld zone is typical as-cast structure and dispersal distribution,and in heat-affected zone (HAZ) the β strengthen phase clusters grow up together. During tensile test,the hybrid welding joint ruptures at weld zone with ductile shear characteristic. The average tensile strength of hybrid welding joints is 292 MPa,about 83.4% of base metal..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1404 (2010)
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Materials and Thin Films
Calculation for Linear and Nonlinear Optical Properties of LBO Crystals
Zhou Guanggang, Lu Guiwu, Yu Yinghui, Zhang Wansong, and Zhao Kun
The electronic energy band structure and linear optical coefficient of LiB3O5 (LBO) crystal were calculated with first-principle pseudo-potential plane wave method. The nonlinear optical coefficient of LBO was calculated using coupling perturbation (CP) method. The calculated refractive indices and second-harmonic-gene
The electronic energy band structure and linear optical coefficient of LiB3O5 (LBO) crystal were calculated with first-principle pseudo-potential plane wave method. The nonlinear optical coefficient of LBO was calculated using coupling perturbation (CP) method. The calculated refractive indices and second-harmonic-generation (SHG) coefficients matched well with experimental results. The electronic density of states on upper part of valence bands and bottom part of conduction bands were calculated. It is found that the 2p orbital of B and O atoms in LBO crystal are hybridized,which is the origin of the nonlinear property..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1342 (2010)
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TaSi2 Nanoparticles Prepared by Pulsed Laser Ablation
Huang Lijuan, Wang Lei, Wu Zhenglong, Zhu Shiwei, and Du Jun
TaSi2 nanoparticles have been synthesized on highly oriented pyrolytic graphite (HOPG) by ablating high purity TaSi2 target using pulsed laser ablation (PLA) technique. Scanning electron microscopy (SEM) and X-ray photoelectron spectroscopy (XPS) are applied to analyze the surface morphology and chemical states of the
TaSi2 nanoparticles have been synthesized on highly oriented pyrolytic graphite (HOPG) by ablating high purity TaSi2 target using pulsed laser ablation (PLA) technique. Scanning electron microscopy (SEM) and X-ray photoelectron spectroscopy (XPS) are applied to analyze the surface morphology and chemical states of the sample. The SEM results reveal that the average size and surface density of nanoparticles are 10nm and 1×1012cm-2 respectively;The XPS spectra show that the surface chemical elements of the nanoparticles on the HOPG substrate include Ta,Si,C and O. The corresponding investigations confirm the presence of TaSi2 compound. Quantitative analyses indicate the atom ratio of Ta and Si is 1:2.2 utilizing integral peak area sensitivity factor method,which is close to that of stoichiometry TaSi2. The further analysis demonstrates that the formation of TaC is due to the reaction of Ta element and C in the laser ablation process,and the formation of SiC is due to the reaction of Si with C. At the same time,most of the O signals come from the chemical adsorption oxygen on the surface composition of TaSi2 nanoparticles..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1347 (2010)
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Nonlinear Optical Response of Sb80Bi20 Phase Change Films
Zhai Fengxiao, Jiang Laixin, Wang Yang, and Gan Fuxi
Phase change films with SiN/Sb80Bi20/SiN structure are deposited on the K9 glass substrates by direct current magnetron sputtering. Nonlinear optical response of transmittance and reflectance of the films is investigated using a confocal Z-scan technique with a continuous wave He-Ne laser. The results indicate that the
Phase change films with SiN/Sb80Bi20/SiN structure are deposited on the K9 glass substrates by direct current magnetron sputtering. Nonlinear optical response of transmittance and reflectance of the films is investigated using a confocal Z-scan technique with a continuous wave He-Ne laser. The results indicate that the transmittance and reflectance at focus both have nonlinear response induced by phase change. The transmittance at focus increases with the increasing of scan power and keeps a saturated value. Formation of phase change micro-area can be achieved at focus of scan laser,and the area will increase with the increasing of scan power. The transmittance of irradiated sample under different powers was studied with in situ repetitive method;and the repetitive power is smaller than the phase change threshold. The results of repetitive Z-scan experiments indicate that the phase change area have a good opto-thermal stability. BiSb films show potential capability for phase change data storage..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1352 (2010)
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Measurement and Metrology
Gas Reconstruction Distribution Based on Absorption Spectroscopy Technology
Li Ning, and Weng Chunsheng
The absorption spectroscopy combined with computerized tomography technique is used to reconstruct the two-dimensional (2D) image of gas distribution at uniform temperature and pressure. A new optical scanning system is set up based on four rotation platforms. The 16 cm×16 cm region of interest is scanned within 0
The absorption spectroscopy combined with computerized tomography technique is used to reconstruct the two-dimensional (2D) image of gas distribution at uniform temperature and pressure. A new optical scanning system is set up based on four rotation platforms. The 16 cm×16 cm region of interest is scanned within 0.1 s,and 400 projections are calculated according to the laser attenuation caused by gas absorption. With numerical simulation,the assumed model of gas distribution is reconstructed by algebraic reconstruction technique (ART) and least square QR-factorization method. The effect of the concentration boundary constants on reconstruction results is also discussed. The experiments are performed on the reconstruction of 4% NH3 distribution at different heights away from the round flue located in the scanning range,and the images are analyzed further..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1310 (2010)
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Laser Doppler Velocimeter for Vehicle Inertial Navigation System
Zhou Jian, and Long Xingwu
提出将激光多普勒测速仪(LDV)应用于车载惯性导航系统提供速度参数。阐述了激光多普勒测量自身速度的基本原理,设计了参考光束型LDV,并运用跟踪滤波、频谱细化及频谱校正技术对多普勒信号进行处理。理论分析与实验表明,参考光束型LDV解决了双光束不能进行离焦测量的难题;跟踪滤波器实时跟踪多普勒信号,去除基底信号和部分噪声,提高了信噪比;频谱细化和频谱校正技术,提高了频谱分辨率,使提取的多普勒频率更接近于真实值,减小了系统的测量误差。LDV可以为车载惯导系统提供有效的速度信息。
提出将激光多普勒测速仪(LDV)应用于车载惯性导航系统提供速度参数。阐述了激光多普勒测量自身速度的基本原理,设计了参考光束型LDV,并运用跟踪滤波、频谱细化及频谱校正技术对多普勒信号进行处理。理论分析与实验表明,参考光束型LDV解决了双光束不能进行离焦测量的难题;跟踪滤波器实时跟踪多普勒信号,去除基底信号和部分噪声,提高了信噪比;频谱细化和频谱校正技术,提高了频谱分辨率,使提取的多普勒频率更接近于真实值,减小了系统的测量误差。LDV可以为车载惯导系统提供有效的速度信息。.
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1316 (2010)
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Measuring and Tracking Stealth Flying Objects by Straight-Edge Diffraction
Gong Tianlin, Zhao Jingjing, Ding Wenlong, Ji Xianming, and Zhang Hua
At present,the purpose of anti-stealth has been achieved by improving diffuse reflectance signal strength for the most advanced anti-stealth radar,while it is impossible to achieve the fundamental anti-stealth by this method. So,a new radar anti-stealth technology is proposed and by means of straight edge diffraction i
At present,the purpose of anti-stealth has been achieved by improving diffuse reflectance signal strength for the most advanced anti-stealth radar,while it is impossible to achieve the fundamental anti-stealth by this method. So,a new radar anti-stealth technology is proposed and by means of straight edge diffraction it can be realized in measuring and tracking stealth flying objects. When scanning the stealth flying object with laser,not only the position and the flying speed of the stealth flying object can be simulated,but also the shape and size can be obtained. Thus,it can be realized in full tracking the stealth flying objects. In addition,the radar of using the principle of straight-edge diffraction has the functions of data encryption..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1322 (2010)
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Precise Measurement of Rate Biased Laser Gyro Scale Factor
Zhan Dejun, Qin Shiqiao, Wang Xingshu, and Wei Wenjian
Scale factor of rate biased laser gyro is precisely measured by calibrating fix-error angle. Common scale factor measurement methods are analyzed according to the characteristics of rate biased laser gyro structure,and it is found that the precision of measuring scale factor is determined by fix-error angle. A method o
Scale factor of rate biased laser gyro is precisely measured by calibrating fix-error angle. Common scale factor measurement methods are analyzed according to the characteristics of rate biased laser gyro structure,and it is found that the precision of measuring scale factor is determined by fix-error angle. A method of calibrating fix-error angle is put forward. With this method rate biased laser gyro is installed on position turntable by approximate 45°,the ouput pulses of four different states are measured,then the laser gyro fix-error angle can be calculated,and the formula of measuring scale factor is corrected by the fix-error angle. The experimental result shows that precision of measuring rate biased laser gyro scale factor can be higher than 10-7..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1327 (2010)
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Investigation of Laser-Induced Acoustics Signal for Target Detection
Zong Siguang, Wang Jiang′an, Ma Mingkui, and Ma Zhiguo
Laser-induced acoustic signal is a new approach for underwater acoustic source,which has much virtue such as high intensity,short pulse and broad frequency. The acoustic signal characteristic of laser-induced breakdown is studied and its corresponding theory model is systemically analyzed. The experimental measure inve
Laser-induced acoustic signal is a new approach for underwater acoustic source,which has much virtue such as high intensity,short pulse and broad frequency. The acoustic signal characteristic of laser-induced breakdown is studied and its corresponding theory model is systemically analyzed. The experimental measure investigation is formed with the high power laser,water tank and high frequency hydrophone. The characteristic of acoustic signal such as intensity,frequency and transmitting is analyzed. Based on the underwater target detection technology,the experiment of underwater target detection is done through laser-induced acoustic signal. The experimental results show that the laser-induced acoustic signal has a salience role during the small target detection. This makes a stride for investigation of laser-acoustic underwater objects detection..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1332 (2010)
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Testing an Aspheric Mirror Based on Phase Measuring Deflectometry
Zhao Wenchuan, Su Xianyu, Liu Yuankun, and Zhang Qican
A method based on basic phase measuring deflectometry (PMD) is proposed for testing the aspherical mirror,which uses two reference screens in different distances from the tested mirror. The intensity-modulated patterns are generated on the screens and the images reflected via the tested mirror are recorded by a camera.
A method based on basic phase measuring deflectometry (PMD) is proposed for testing the aspherical mirror,which uses two reference screens in different distances from the tested mirror. The intensity-modulated patterns are generated on the screens and the images reflected via the tested mirror are recorded by a camera. The original ray of every pixel and its corresponding deflected ray can be constructed using the recorded patterns and phase-shifting technique. Their intersection points and the surface normal are obtained. Then the mirror surface is reconstructed by numerical integration. The procedure for this method is presented,and the computer simulation and experimental results are shown..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1338 (2010)
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Optical Communication
Modeling and Analyzing of Error Performance for Pulse Position Modulation and Digital Pulse Interval Modulation under Turbulence
Hu Hao, Wang Hongxing, Zhou Min, Zhang Tieying, and Liu Min
To characterize error performance of pulse position modulation (PPM) with optimal demodulation and digital pulse interval modulation(DPIM) whose variable symbol length makes it difficult to analyze performances,an exact symbol error rate (SER) expression is presented as well as its union-bound about PPM based on maximu
To characterize error performance of pulse position modulation (PPM) with optimal demodulation and digital pulse interval modulation(DPIM) whose variable symbol length makes it difficult to analyze performances,an exact symbol error rate (SER) expression is presented as well as its union-bound about PPM based on maximum-likelihood (ML) detection under turbulence channel,and an approximate SER mathematic model of DPIM grounding on transmitted packet is proposed. Appling pairwise error probability (PEP) theory in conjunction with SER,the bit error rate (BER) is also derived. Simulations show that,union-bound analysis of PPM can yield simple analytical upper bounds and approximations to SER,and the performance of PPM influenced more by turbulence is better than DPIM and on-off keying (OOK). DPIM isn′t suitable for simplex communication for its poor BER and SER. The modeling methods and conclusions are applicable to other digital pulse modulations..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1269 (2010)
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Reviews
Review and Expectation of Non-Coaxial Laser Confocal Microscopy
Sha Dingguo, Jiang Qin, Zhao Weiqian, and Qiu Lirong
Non-coaxial laser confocal microscopy is a novel imaging method of laser confocal microscopy. By observing the sample at an angle to the illumination axis,this method decreases the observation volume of overlap and then improves the axial resolution. Compared with the conventional confocal microscopy,this method has ga
Non-coaxial laser confocal microscopy is a novel imaging method of laser confocal microscopy. By observing the sample at an angle to the illumination axis,this method decreases the observation volume of overlap and then improves the axial resolution. Compared with the conventional confocal microscopy,this method has gained wide attention for its advantage that it can improve the resolution,working distance and field of view simultaneously. We summarize the key principle of the non-coaxial laser confocal microscopy,and expand the recent progress and development trend of two typical non-coaxial laser confocal microscopies,confocal theta microscopy and dual-axes confocal microscopy. Finally we briefly introduce our researching plan..
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Chinese Journal of Lasers
Publication Date: Mar. 30, 2020
Vol. 37, Issue 5, 1157 (2010)
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