仿真分析测量参数对光反馈自混合信号的影响

针对含有光反馈的半导体激光器,在外腔波动条件下,研究其光反馈干涉自混合信号模型。经计算仿真分析,得到了外腔运动参数及激光器本身参数的变化对光反馈自混合信号波形的影响规律。结果表明,利用光反馈自混合干涉效应可以进行多参数传感测量。     

基于适度光反馈自混合干涉技术的振动测量

光反馈自混合干涉技术是一种新浮现的有别于传统双光束干涉的一类新的测试技术。为了在适度光反馈下进行振动的精密测量,提出了一种基于适度光反馈自混合干涉技术的振动测量方法。经对光反馈自混合干涉信号条纹分析,发现通过选定合适的光反馈水平及激光器线宽展宽因数,可以得到锯齿干涉条纹。这种干涉信号不仅包含振动幅度信息也包含振动方向信息。该振动测量方法利用锯齿干涉条纹的特点,首先通过条纹记数实现大范围振幅粗测,具有半波长位移分辨力;然后基于适度光反馈下小数条纹的特点,给出了小于半波长位移测量的线性表达式,从而实现位移的精测。仿真计算表明,该方法可以实现大量程高分辨力振动位移测量,在叠加20 dB的噪声下,振幅测量相对误差平均为0.5%。     

多纵模激光二极管自混合干涉的观察和分析

自混合干涉信号的幅度和波形均会随外腔静态长度发生周期性变化。实验测量了干涉信号幅度和波形随外腔静态长度的变化,并用多模自混合干涉信号叠加的方法计算分析了干涉信号的幅度随外腔静态长度的变化,然后考虑反馈光对内腔反射率和激光介质增益的影响计算分析了干涉信号的波形随外腔静态长度的变化。结果表明,多模激光自混合干涉信号随外腔静态长度变化的周期为内腔的光学长度,而其主极大区域的宽度为激光的相干长度,小于内腔的光学长度。多纵模自混合干涉信号的叠加导致自混合干涉信号的幅度随外腔静态长度发生周期性变化,而波形随外腔静态长度周期性变化则是内腔反射率和激光介质增益均受反馈光影响导致的非线性的结果。     

含预反馈的激光自混合干涉型位移测量结构

提出了含预反馈的激光自混合干涉型位移测量结构，建立了系统模型，经理论分析和实验验证，结果表明，该结构具有提高温度量程，提高测量信号信噪比及获得粗糙表面的锯齿干涉信号等特点。     

基于经验模态分解的自混合干涉相位提取方法研究

为实现光反馈机理下激光自混合干涉信号相位的精确提取, 本文提出了一种基于经验模态分析(EMD)的方法.首先, 采用EMD算法对含噪的自混合干涉信号进行了降噪预处理, 提取有效的干涉信号.然后在对含有外腔物体运动信息的光反馈相位求解的过程中, 利用希尔伯特黄变换(HHT)原理实时提取每一时刻的瞬时相位, 将其去包裹处理后得到真实相位. 在弱、适度、强光反馈条件下, 分别对基于EMD的相位提取算法进行了仿真研究.最后, 搭建了基于自混合干涉效应的微位移测量实验平台, 进行实验研究.实验结果表明, 利用该方法可以实现对自混合干涉信号的相位提取, 最大误差小于1.6 rad.仿真和实验结果的一致性, 说明了EMD方法的有效性.     

光纤激光器自混合干涉效应研究

针对光纤激光器自混合干涉传感应用,研究了光纤激光器自混合干涉特性,运用四镜法布里-珀罗腔模型对掺铒线形腔光纤激光器自混合干涉效应进行了理论分析,对不同反馈水平下的自混合干涉信号进行了数值模拟,获得了光反馈条件下光纤激光器输出特性.外腔长度的改变会调制激光器的输出强度,外腔长度变化半个波长,对应一个干涉条纹,弱反馈条件下,由反馈引起的激光器的频率变化可以忽略.设计了基于光纤激光器的自混合干涉实验,实验结果和理论分析相符合.此研究结果为进一步开展光纤激光器的自混合干涉传感应用研究奠定了理论与实验基础.     

大气颗粒物多参数激光自混合传感的数值模拟与特性分析

基于颗粒物米氏散射特性、激光自混合三镜腔理论和激光器稳态条件,推导出在大气颗粒物光反馈下激光器频率、功率、线宽的理论表达式,建立了大气颗粒物光反馈下的激光自混合理论模型。同时,数值模拟和分析了大气颗粒物物理参数对激光自混合干涉信号的影响。结果表明,在一定粒径范围内,激光自混合反馈强度随大气颗粒物粒径增大先增大后减小,且反馈强度峰值出现的位置随颗粒物折射率实部的增大、虚部的减小向粒径较大处移动;自混合系统的外腔长度影响自混合干涉信号的波动深度,激光器输出光信号的幅值随外腔长度增大呈指数衰减;自混合干涉信号波动频率与大气颗粒物运动速度呈线性关系。分析结果对基于激光自混合效应的大气颗粒物多物理参数传感具有重要作用。     

激光二极管自混合干涉信号随外腔长度衰减

理论分析了激光二极管自混合干涉信号随外腔长度增大的变化特点及规律。从复合谐振腔干涉函数出发,推导出激光二极管自混合干涉信号随外腔长度增加指数衰减,衰减系数与光频虚部成正比,并给出光频虚部和实部满足的超越方程组。求解该超越方程组得到,当外腔长度超过一个临界值时,光频虚部随外腔长度近似反比衰减,则激光二极管自混合干涉信号随外腔长度增加衰减很缓慢;当外腔长度小于该临界值时,外腔反馈会使光频虚部增大,而且光频虚部随外腔长度变化而振荡,激光二极管自混合干涉信号出现复杂的状态。外腔反馈强度越大,或激光单模线宽越大,这一外腔长度的临界值则越小。分析激光二极管自混合干涉还需要考虑外腔反馈对光频虚部的影响。     

激光自混合干涉位移测量系统的稳态解

基于三镜腔等效自混合干涉位移测量系统，对自混合干涉系统的稳定性问题，建立系统模型，通过求解模型的相位方程，确定其单值解和多值解时边界条件，从理论上确定自混合干涉系统稳态运行的光反馈水平。该结论对系统设计具有指导意义。     

正弦相位调制自混合干涉微位移测量精度分析

为了提高自混合干涉仪的位移测量精度,提出将正弦相位调制技术引入自混合干涉中。相位调制由置于自混合干涉仪外腔中的电光晶体实现,相位解调由傅里叶分析的方法得到。对位移测量过程中各种可能的误差来源如电光晶体调制不稳定性、光在外腔中的二次反馈效应等对测量精度的影响进行了模拟分析,从理论上得到了这种新的信号处理方法可以达到纳米级的测量精度。实验上,用高精度的商用压电陶瓷标定的结果验证了这种正弦相位调制自混合干涉仪在普通实验室噪声环境中可以达到纳米级的位移测量精度。     

Displacement measurement method based on laser self-mixing interference in the presence of speckle

In order to achieve the accurate measurement of displacement, this Letter presents a self-mixing interference displacement measurement method suitable for the speckle effect. Because of the speckle effect, the amplitude of the self-mixing interference signal fluctuates greatly, which will affect the measurement accuracy of displacement. The ensemble empirical mode decomposition is used to process the interference signal, which can filter out high-frequency noise and low-frequency noise at the same time. The envelope of the self-mixing interference signal is extracted by Hilbert transform, and it is used to realize the normalization of the signal. Through a series of signal processing, the influence of speckle can be effectively reduced, and the self-mixing interference signal can be transformed into standard form. The displacement can be reconstructed by fringe counting and the interpolation method. The experimental results show that the method is successfully applied to the displacement measurement in the presence of speckle, which verifies the effectiveness and feasibility of the method.     

Quadrature demodulation technique for self-mixing interferometry displacement sensor

A new, to the best of our knowledge, signal processing method based on quadrature demodulation technique is presented for laser diode self-mixing interferometry(LDSMI) displacement sensor. Phase modulation of the laser beam is obtained by an electro-optic modulator (EOM) in the external cavity. Detection of the target's displacement can be easily achieved by sampling the interference signal at those times which satisfied certain conditions. The major advantage of the technique is that it does not involve any complicated calculation and insensitive to the sampling error. Experimental results show that the proposed method can effectively improve the displacement measurement resolution of the laser diode self-mixing displacement sensor to a few nanometers.     

Fourier transform method for self-mixing interference signal analysis

Self-mixing interferometry (SMI) has been used to measure the distance and displacement. Although the principle of self-mixing interference is different conventional interference, we concluded that FFT analysis technique could also be used to detect the signal phase and increase the measurement precision of self-mixing interferometry.First the SMI signal is obtained by feeding the light from the target to cavity of laser diode, then it is pre-processed by an analog subtraction circuit to remove the overlapped output intensity due to the injection current modulation. Finally, SMI signal is analyzed by FFT phase detection method. Theoretical analysis and simulation calculations are presented. Experimentally, displacement of a PZT-driven target was measured with a precision of λ/50.     

Effect of angle of incidence on self-mixing laser Doppler velocimeter and optimization of the system

Based on the theory of speckle and self-mixing interference in laser-diode, three-facet cavity model is introduced to analyze laser Doppler effect based on self-mixing interference in the case of a rough surface, and numerical solution of the signal is obtained. Simulation results of speckle-modulated Doppler signal based on self-mixing effect and tracking accuracy at different incident angles are given using parameters employed in the experiment. Simulation results indicate incident angle of around 30° is most suitable when both tracking accuracy and signal amplitude are considered. Experimental waveforms agree well with simulation results, and similar conclusions as simulation predictions about changing trend of tracking accuracies of the system at different incident angles can be made. Combining with difference frequency analog phase-lock loop (PLL) technique and appropriate sampling time, a laser Doppler velocimeter with tracking accuracy better than 1.3% in the range of 10-470 mm/s is realized.     

基于二次反馈激光自混合新型测距方法

在基于激光自混合干涉的理论上,提出了一种利用二次反馈激光自混合干涉的新型测距方法。利用三角波电流对半导体激光器进行调制,得到一次反馈自混合干涉信号。通过对信号分析可知,当半导体激光器被调制后,会产生一系列的模跳,模跳的数量与绝对距离成正比。通过计算在一个三角波电流调制周期内模跳的数量,就可以求出绝对距离。利用多重激光自混合的概念,提出该种新型测距方法。建立了距离测量系统,进行了实验验证。实验结果表明:由于步长分辨率精度的提高,测距精度明显提高。     

Self-mixing interferometer based on temporal-carrier phase-shifting technique for micro-displacement reconstruction

A novel self-mixing interferometer based on temporal-carrier phase-shifting technique is presented. The phase of the laser beam is modulated with a triangular wave by an electro-optic modulator (EOM) in the external cavity. Phase demodulation of the interference signal is achieved by five-step Schwider-Hariharan algorithm combined with a special sampling technique. Theoretical analysis and simulation results are presented. Some errors of the technique have been discussed. Experimentally, the new interferometer is applied to measure the displacement of a high precision commercial PZT and a displacement measurement accuracy of λ/60 can be obtained.     

激光自混合干涉测振仪的硬件系统设计

基于激光自混合干涉技术的特点,设计了一种新型半导体激光自混合干涉测振仪系统。系统将频率调制引入自混合干涉中,实现对振动物体的非接触式测量。介绍了激光自混合干涉测振仪的原理、仪器系统的光路系统设计、信号的调制模块设计、解调模块设计以及DSP系统的采集处理模块设计。该仪器体积小、成本低、易于准直、可以非接触式测量,能够测量振动频率在50kHz内的物体,其中包括非周期性振动。可以测量出振动物体的振动频率、振幅以及还原振动波形,振动幅度测量精度可以达到0．325μm,频率精度为1Hz。