Design of new seismometer based on laser Doppler effect

In order to improve the resolution of seismic acquisition,a new seismic acquisition system based on tangential laser Doppler effect with an optimized differential optical configuration is proposed.The relative movement of the inertia object and the immobile frame is measured by laser Doppler effect,which can avoid the electromagnetic and thermometric interference,and the adoption of frequency-modulated (FM) transmission can improve the ability of anti-jamming.The frequency bandwidth is properly determined by analyzing the frequency of the Doppler signal.The velocity, displacement,acceleration, and frequency to be measured can be real-time acquired by frequency/velocity (F/V) converting the FM Doppler signal. A 100-dB dynamic range and the linear frequency range of 1.0 to 1000 Hz are realized.

DETECTION ON MICRO-DOPPLER EFFECT BASED ON LASER COHERENT RADAR

A laser coherent detection system of 1550 nm wavelength was presented, and experimental research on detecting micro-Doppler effect in a dynamic target was developed. In the study, the return signal in the time domain is decomposed into a set of components in different wavelet scales by multi-resolution wavelet analysis, and the components are associated with the vibrational motions in a target. Then micro-Doppler signatures are extracted by applying the reconstruction. During the course of the final data processing frequency analysis and time-frequency analysis are applied to analyze the vibrational signals and estimate the motion parameters successfully. The experimental results indicate that the system can effectively detect micro-Doppler information in a moving target, and the tiny vibrational signatures also can be acquired effectively by wavelet multi-resolution analysis and time-frequency analysis.

基于光纤镀膜探针的固体介质中应力波粒子速度测量技术

粒子速度是分析固体介质中应力波传播规律的一个重要参数。结合激光多普勒效应和全光纤干涉测速系统,提出了一种基于光纤镀膜探针的固体介质中应力波粒子速度的测量方法。将光纤镀膜探针嵌入有机玻璃(PMMA)中,距爆心同一半径处,采用0.125 g TNT当量的微型炸药球作为爆炸源,进行填实爆炸产生应力波,通过采集光纤探针端面的运动信息,基于短时傅里叶变换的时频分析方法,解调出端面运动速度,进而反推出粒子速度。实验结果表明:不同光纤镀膜探针测得的速度分别为22.648 m/s、23.505 m/s,将反推的粒子速度与传统的圆环型电磁粒子速度计方法获取到的数据进行对比,两者的相对偏差低于5.00%,验证了光纤镀膜探针测量固体介质中应力波粒子速度的可行性。

Doppler展宽的四能级系统无反转激光的传播效应

在考虑Doppler效应下,通过理论分析和数值模拟研究了传播效应对开放四能级系统中的无反转激光特性的影响。研究发现:探测场和驱动场同向传输对系统获得无反转激光更为有利,要想提高探测激光的增益不仅要选取合适的入口处驱动场Rabi频率值,而且选取适当的驱动场和探测场初始失谐值对于提高激光增益也极为关键;随传播距离的增大,探测场上下能级粒子数一直满足无反转,而探测场上能级和驱动场上能级间的粒子数随传播距离的增大发生了Raman反转。

基于Doppler的连续油管长度在线测量系统

设计了一种基于激光Doppler效应的连续油管长度在线测量系统.该系统通过接收运动油管表面的散射光,经过数据采集和信号处理,测量出多普勒频移,进而求出油管运动的瞬时速度,通过积分最终得到下井油管的长度.该系统具有测量精度高、性能稳定且容易实现的特点,适合油田现场作业的要求,具有广阔的应用前景.

激光测振仪在火炮后坐位移测试中的应用

后坐位移是火炮设计中的一个重要参数。本文介绍了一种激光测振仪测量火炮后坐位移的测量方法,以某火炮为试验对象,得到水平射击条件下后坐位移的运动曲线,三组试验数据的最大位移分别为-29.9mm、-30.23mm、-29.47mm。结果表明:该方法对于火炮后座位移的测量具较高实用性。

A method of measuring micro-impulse with torsion pendulum based on multi-beam laser heterodyne

In this paper, we propose a novel method of multi-beam laser heterodyne measurement for micro-impulse. The measurement of the micro-impulse, which is converted into the measurement of the small tuning angle of the torsion pendulum, is realized by considering the interaction between pulse laser and working medium. Based on Doppler effect and heterodyne technology, the information regarding the small tuning angle is loaded to the frequency difference of the multi-beam laser heterodyne signal by the frequency modulation of the oscillating mirror, thereby obtaining many values of the small tuning angle after the multi-beam laser heterodyne signal demodulation simultaneously. Processing these values by weighted-average, the small tuning angle can be obtained accurately and the value of the micro-impulse can eventually be calculated. Using Polyvinylchlorid＋2%C as a working medium, this novel method is used to simulate the value of the micro-impulse by MATLAB which is generated by considering the interaction between the pulse laser and the working medium, the obtained result shows that the relative error of this method is just 0.5%.

Velocity Diagnosis of Critical Surface at Microwave Band in Laser-Induced Plasma

The velocity of critical surface at microwave band in laser-induced plasma was measured and the results are presented. The results indicate that the velocity of critical surface with low electron density is larger than that with the high one; and the velocity of critical surface increases with the laser power density.

Development of High-precision Rotary Encoder Using Semiconductor Laser

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一种激光多普勒测振相位解缠算法及FPGA实现

为了解决周期性跳变引起的相位解调问题,提出了一种基于现场可编程门阵列(FPGA)的自动相位解缠算法。采用数据流水线结构,通过状态机自动寻求跳变周期数,由跳变周期数实现自动相位补偿,并对提出的算法进行了理论分析和实验验证。结果表明,在FPGA内设置跳变周期数计数位宽为8位,能适用256次以下跳变情况;当增加跳变周期数计数位宽,可适应更多跳变次数的情况;自动相位解缠算法几乎不占用存储资源;能解决因振动调制范围增大引起的反正切相位跳变问题;相位解调误差在1‰以内,满足高精度振动检测实时性需求。此自动相位解缠算法为激光多普勒振动测量时反正切相位计算结果存在周期性跳变问题提供了更为简洁的解决方案。

超高速医用离心机转速校准装置及校准方法研究

医用离心机是应用旋转运动的离心力和浮力密度的差异,进行分离和提纯生物样品中各成分的处理装置。医用离心机的转速是反映医用离心机质量的重要技术指标。本文通过对医用离心机以及相关标准进行研究,应用多普勒效应和非接触式激光技术研制一种用于医用离心机的转速校准的装置,并对其校准方法进行了研究,以期对医用离心机的转速参数进行有效溯源,保障在用医用离心机的相关技术指标准确可靠,临床应用安全有效。

Bichromatic laser frequency stabilization with Doppler effect and polarization spectroscopy

The interaction between polychromatic fields and atoms is an important subject in quantum optics.Frequency locking for small frequency interval multi-field is usually required in some experiments.In this letter,we experimentally demonstrate a holistic scheme for bichromatic laser frequency stabilization.Compared with traditional saturation absorption methods and complicated frequency shift schemes,offset locking for bichromatic fields is simply achieved using polarization spectroscopy and Doppler effect.Frequency locking with a wide-range asymmetry of the detuning is also shown.Our scheme makes laser spectroscopy experiments with polychromatic fields more convenient.

光纤位移干涉仪的研制及其在Hopkinson压杆实验中的应用

为了满足爆炸冲击作用下结构体动态变形过程测试的需要,基于激光多普勒效应和外差技术,采用单模光纤器件、声光移频器(AOM)和高带宽光电转换器研制了一套可辨别速度方向的参考光调制式光纤位移干涉仪,它具有结构简单、动态响应快以及非接触式测量的优点。采用短时傅里叶变换算法编写了数据处理程序,并在Hopkinson压杆上进行了实验研究,获得了36.82 m/s的峰值速度,并对速度波形与应变片测量获得的结果及应力波理论计算结果进行了对比分析,验证了系统的可行性。钢筒爆炸实验获得了壁面振动的正负速度历程,验证了系统可以辨别物体运动方向。

激光多普勒效应微纳测量技术的研究

研究MEMS系统中可动构件 (膜、梁、梳、面、弹簧 )在承受压力、弯曲等机械负荷及热负荷下的性能 ,重要途经是测量其在各种条件下的运动量 (振动、位移等 ) .提出了一种MEMS构件微小振动、位移测量系统 ,采用外差法激光多普勒技术 ,通过对信号的频谱分析 ,确定了信号处理单元的适宜频带宽度 .对调相多普勒跟踪信号进行相干解调及频率 /电压转换 ,可以实时地得到被测的速度、位移、加速度、频率等参量 .实现的测量分辨力为 2 0nm .

高速运动飞片的F-P干涉测量技术研究

为了测试在冲击波或爆轰波作用下各种材料样品的自由面速度随时间变化的过程,提出了一种利用法布里-珀罗(F-P)光学共振腔的选频特性进行多普勒频移绝对量的检测来连续测量飞片运动速度的方法,建立了一套基于此方法的测量装置,并利用金属箔电爆炸驱动聚酰亚胺薄膜飞片装置对所研制的F-P干涉测速仪进行了原理性实验验证。利用所研制的F-P干涉测速仪测量了飞片速度在60ns的时间内由静止加速到大于3km/s的速度的全过程,测量数据的不确定度小于5%。与其它激光测速装置相比,该干涉仪具有体积小、结构简单紧凑和成本低的特点,在爆轰物理与冲击波物理实验研究中具有较好的应用前景。

基于激光多普勒测速的流场测试技术

激光多普勒测速技术,作为一种非接触式测速技术,具有测速精度高,测速范围广,空间分辨率高,不影响流场分布、可测远距离速度场等优点。因此多普勒测速技术已经在众多领域中得到广泛的应用。本文主要从理论上对激光多普勒测速技术进行分析,从实验角度阐述了激光多普勒测速技术的工作机理。并对激光多普勒测速技术在内燃机中流场测试应用的可行性进行分析,最后介绍了多普勒测速技术在内燃机流场测试中的应用和国内外发展情况。

检测激光多普勒信号的新方法

为了准确地检测激光多普勒信号,提出了一种新的信号检测方法。在算法中应用梯度下降方法推导出算法的系统方程,并且应用庞加莱映射稳定原理给出系统稳定的存在条件。应用该算法能够检测激光多普勒信号,估计多普勒频移。测试结果表明,测出数据的相对误差小于0.7%。

基于激光多普勒效应的舰船尾流探测研究

为了改进鱼雷激光尾流制导方法,在激光多普勒效应的基础上,建立激光探测舰船尾流的理论模型,并设计出差动型光学系统,使探测器接收到的散射光信号产生多普勒频移,有效提高信噪比。仿真结果表明,通过锁相放大技术处理,能检出待测目标多普勒差频信号,并抑制噪声,在水中兵器领域有应用前景。

一种便携式激光多普勒测速光学系统的设计

为了将激光多普勒测速技术应用于野外流体速度测量,设计了一种基于双光束模式的激光多普勒测速光学系统,采用光纤耦合半导体激光器作为光源,通过保偏光纤耦合器、保偏光纤准直器以及非球面透镜来实现激光的分束、准直与聚焦,形成干涉条纹,并利用接收透镜、针孔光阑以及雪崩光电二极管检测多普勒信号光。结果表明,所设计的光学系统的空间分辨率为0.046mm^3,理论测量误差小于0.59%。系统体积小、装配方便、易携带,适合于野外流体速度测量。