全保偏双飞秒光纤光频梳系统的频率联动特性

采用跟踪反馈控制法,实现了双飞秒光频梳系统的频率联动,研究了主动光频梳自动扫频和手动扫频情况下,双光梳间的频率联动特性.结果显示,对主动光频梳进行自动扫频或手动扫频时,从动光频梳的频率跟随变化,且双光梳频率间的相关系数最大可达0.99,说明双光梳的频率间保持了较好的联动特性.最后,将频率联动的全保偏双光梳系统用于测距实验中,测量距离为1.332m,时间间隔为0.2s,连续进行16次测量,测得数据的标准差为0.35μm,测量精度可达亚微米量级.     

光学频率梳啁啾干涉实现绝对距离测量

本文提出一种基于光学频率梳的啁啾脉冲干涉绝对距离测量的方法.通过一对衍射光栅啁啾参考脉冲,分析参考脉冲和测量脉冲的干涉光谱,得到脉冲的中心频率偏移量,从而解算出被测距离.文中详细分析了脉冲啁啾原理和啁啾脉冲干涉测距原理,以及影响测距范围的因素并给出仿真.搭建了改进的Michelson干涉结构,实验得出测距范围受啁啾参数的影响,并与理论分析吻合;在地下长导轨上,进行大范围测距实验.实验结果表明当,在65 m范围内,测量结果与参考测距仪相比,测距精度为33μm,相对精度达到5.1×10~(-7).此外,根据理论分析,通过实验优化了实验装置的测量不确定度.     

一种光学频率梳绝对测距的新方法

采用光学频率梳的高精度绝对距离测量技术在航空航天、科学研究和工业生产等领域都发挥着重要作用.提出一种利用光学频率梳技术,通过检测光强实现绝对距离测量的新方法,研究了光学频率梳发出脉冲的时间相干性,分析了光强与被测距离之间的关系、干涉条纹峰值点位置与被测距离之间的关系.建立了基于Michelson干涉原理的测距系统,通过测量光强信息得到被测距离.以高精度纳米位移平台的位移量作为长度基准进行了绝对测距实验,在每个被测距离点都重复进行了10次实验,将10次实验测得的光强值取平均后用于距离的计算.实验结果表明,该方法可以实现绝对距离测量,在10μm测量范围内,最大误差为47 nm.因此,该方法可以应用于大尺寸高精度的绝对距离测量.     

光学频率梳基于光谱干涉实现绝对距离测量

详细分析了光学频率梳光谱干涉的原理, 建立了较全面的光谱干涉的数学模型, 为实现绝对距离测量提供理论分析基础. 基于光谱干涉, 指出通过光谱干涉条纹的振荡频率, 即一次傅里叶变换, 可以实现绝对距离测量, 数值模拟结果表明, 最大测量误差为1.5 nm; 提出了一种等效的多波长并行零差干涉的方法, 分析了多波长并行零差干涉法的测距原理. 数值模拟结果表明, 多波长并行零差干涉法的最大误差为8.7 nm; 通过脉冲啁啾实现绝对测距, 分析了基于脉冲啁啾实现绝对测距的原理, 数值模拟结果表明, 最大测距误差为5.3 nm.     

基于飞秒光学频率梳的大尺寸精密测距综述

飞秒光学频率梳的出现对时间频率技术和光谱学技术产生了深远重大的影响,由此衍生的飞秒光学频率梳绝对测距技术以其快速、大尺寸、高精度等优点已成为国际研究热点,并有望直接应用于大装备制造、激光雷达和卫星编队飞行等大尺寸精密测距。在简要阐述飞秒光学频率梳的原理特性及主要应用的基础上,围绕光梳测距的发展历程及前沿方向,着重介绍了飞秒光梳精密测距近两年来的最新研究进展,并对该技术进行了总结和展望。     

基于合成波长法的飞秒激光外差干涉测距方法

本文提出了一种基于合成波长法的飞秒激光外差干涉测距方法.系统采用两个带通滤波器产生两个具有一定波长差的单波长,用于产生合成波长.本方法结构简单,能量利用率高.与双频激光干涉仪在40 mm范围内的比对结果表明,该方法比对残差的标准差为91 nm.     

一种基于电光调制光频梳光谱干涉的绝对测距方法

提出了一种基于电光调制光学频率梳的光谱干涉测距方法.理论分析了电光调制光学频率梳的数学模型和光谱扩展原理,并分析得出了光谱干涉测距方法的非模糊范围和分辨力的影响因素.在实验中,使用三只级联的电光相位调制器调制单频连续波激光生成了40多阶高功率梳齿状边带,并通过单模光纤和高非线性光纤对电光调制器输出的激光进行光谱扩展,得到重复频率为10 GHz,光谱宽度达30 nm的光学频率梳.将该光频梳作为光谱干涉测距装置的光源,可以实现无"死区"的绝对距离测量.另外,使用等频率间隔重采样和二次方程脉冲峰值拟合算法对测量结果进行数据处理,可以修正系统误差,提升测距精度.实验结果表明,在1 m的测量范围内,使用该装置可以在任意位置达到±15μm以内的绝对测距精度.     

Precise determination of characteristic laser frequencies by an Er-doped fiber optical frequency comb

Femtosecond optical frequency combs correlate the microwave and optical frequencies accurately and coherently. Therefore, any optical frequency in visible to near-infrared region can be directly traced to a microwave frequency. As a result, the length unit "meter" is directly related to the time unit "second". This paper validates the capability of the national wavelength standards based on a home-made Er-doped fiber femtosecond optical frequency comb to measure the laser frequencies ranging from visible to near-infrared region. Optical frequency conversion in the femtosecond optical frequency comb is achieved by combining spectral broadening in a highly nonlinear fiber with a single-point frequency-doubling scheme. The signal-to-noise ratio of the beat notes between the femtosecond optical frequency comb and the lasers at 633, 698, 729, 780, 1064, and 1542 nm is better than 30 dB. The frequency instability of the above lasers is evaluated by using a hydrogen clock signal with a instability of better than 1×10^-13 at 1-s averaging time. The measurement is further validated by measuring the absolute optical frequency of an iodine-stabilized 532-nm laser and an acetylene-stabilized 1542-nm laser. The results are within the uncertainty range of the international recommended values. Our results demonstrate the accurate optical frequency measurement of lasers at different frequencies using the femtosecond optical frequency comb, which is not only important for the precise and accurate traceability and calibration of the laser frequencies, but also provides technical support for establishing the national wavelength standards based on the femtosecond optical frequency comb.     

频率扫描干涉法绝对测距中运动误差的补偿研究

在频率扫描干涉法绝对距离测量过程中,目标的运动会对测量结果引入误差,经推导发现运动误差与激光扫频终点频率以及扪频过程中的光程差位移量有关.前者可直接通过高精度波长计测量,对于后者,提出了外差干涉频分复用技术,设计了一种新的频率扫描距离测量干涉仪,可同时实现目标绝对距离和光程差位移量的测量,通过剔除与扫频终点频率和光程差...     

基于飞秒光梳多路同步锁相的多波长干涉实时绝对测距及其非模糊度量程分析

飞秒光梳被广泛用于时间频率技术和精密光谱测量,由其时频特性所衍生的绝对测距技术以可溯源、大尺寸、高精度等优点有望成为未来长度计量的最重要手段.本文提出了一种基于飞秒光梳多路同步锁相的多波长干涉实时绝对测距方法,使多个连续波激光器通过光学锁相环技术同步锁定到飞秒光梳梳模上,通过多路同步相位测量和小数重合算法最终实现绝对距离测量.所提测量方法不仅能保留传统激光干涉测距的高分辨力和精度,而且可溯源至时间频率基准,对高精度长度测量、尤其是对物理复现“米”的定义具有重要计量意义.测距实验证明,四波长干涉测距的非模糊度量程达到44.6 mm,折射率波动导致非模糊度量程变化为纳米量级;多波长干涉测距的非模糊度量程也受制于空气折射率的测量误差,多波长干涉绝对测距的非模糊度量程在实验室环境下可达数米、甚至几十米,并通过2米线性位移实验证明了多波长绝对测距的大量程和线性测量性能.     

飞秒脉冲非对称互相关绝对测距

光学频率梳是一种重复频率与偏置频率锁定的新型光源,在频域上为频率间隔稳定的频率梳齿,在时域上为相对距离稳定的飞秒脉冲激光.光学频率梳在测距中的应用广泛,能够实现远距离高精度的测量.本实验使用飞秒激光脉冲作为光源,基于谐振腔扫描光学采样测距原理得到非对称的互相关干涉条纹,实现了远距离高精度的绝对测距.非对称互相关条纹可通过色散补偿与调节光学频率梳的重复频率得到,并通过得到的非对称的互相关干涉条纹对测距结果进行补偿.实验结果表明测距系统能够实现在50 m范围内误差为2 μm的绝对测距,测量相对误差为1.9×10^-7.     

Sub-Nominal Resolution Fourier Transform Spectrometry with Chip-Based Combs

Chip-based optical frequency combs address the demand for compact, bright, coherent light sources of equidistant phase-locked lines. Traditionally, the Fourier Transform Spectroscopy (FTS) technique is considered a suboptimal choice for resolving comb lines in chip-based sensing applications due to the requirement of long optical delays, and spectral distortion from the instrumental line shape. Here, a sub-nominal resolution FTS technique is developed that extracts the comb's offset frequency in any spectral region directly from the measured interferogram without resorting to nonlinear $$-to- $$ interferometry. This in turn enables 10's of MHz resolution spectrometry with millimeter optical retardations currently limited by the emission linewidth and phase noise of the used lasers. Low-pressure Doppler-broadened absorption lines probed by widely-tunable chip-scale mid-infrared optical frequen with electrical pumping are fully resolved over a span of tens of nanometers. This versatile technique paves the way for compact, electrostatically-actuated, or even all-on-chip high-fidelity FTS, and can be readily applied to boost the resolution of existing commercial instruments with compact interferometers several hundred times.     

Optic Fiber Interferometer for Absolute Distance Measurement

1.IntroductionAbsolutedistancemeasurementisfarfromanewtopic.However,itisstillafieldstimulatinggreatinterestsnowadaysduetoitSimportantroleinmanufacturingandassembly['J.SincethegreatsuccessachievedbyMichelsonandBenoitwhentheyfirstdevelopedaninterferometertodeterminethestandardmeterintermsofthemonochromaticredcadmiumline,theopticinterferometerhasbeenprovedtobeoneofthemostpreciseandefficientwayindisplacementmeasurementbecauseofitshighdiscriminationandsimplestructure.However,thetraditionalinterfe…     

A diode laser spectrometer at 634nm and absolute frequency measurements using optical frequency comb

This paper reports that two identical external-cavity-diode-laser (ECDL) based spectrometers are constructed at 634 nm referencing on the hyperfine B-X transition R(80)8-4 of ¹²⁷I₂. The lasers are stabilized on the Doppler-free absorption signals using the third-harmonic detection technique. The instability of the stabilized laser is measured to be 2.8×10^-12 (after 1000 s) by counting the beat note between the two lasers. The absolute optical frequency of the transition is, for the first time, determined to be 472851936189.5 kHz by using an optical frequency comb referenced on the microwave caesium atomic clock. The uncertainty of the measurement is less than 4.9 kHz.     

双光反馈半导体激光测距传感器模型

利用线性调频半导体激光器的光反馈效应，可实现绝对距离的测量，但由于半导体激光器光频受环境温度影响较大，限制了该方法的测量精度和稳定性，为解决这一问题，本文提出了一种基于双光反馈的绝对测距方法，并给出了理论模型；理论分析表明，通过联合运用傅立叶变换技术和参考技术，可以降低由温度变化形成的误差，提高系统的测距精度及稳定性。     

基于飞秒光频梳的双频He-Ne激光器频率测量

利用光纤飞秒光频梳和外腔可调谐半导体激光器, 建立了一套双频He-Ne激光器频率测量系统. 选用铷钟作为系统的频率基准, 通过将外腔半导体激光锁定至光频梳使得其频率溯源至铷钟, 再利用外腔可调谐半导体激光与双频He-Ne激光器输出的正交偏振激光拍频, 同时测量两路正交偏振激光频率. 将可调谐半导体激光器锁定至光频梳第1894449个梳齿, 其绝对频率为473612190000.0±2.7 kHz, 相对不确定度为5.7×10^-12. 对商品双频He-Ne激光器进行频率测量实验, 双频He-Ne激光器水平方向偏振激光频率均值为473612229934 kHz, 竖直方向偏振激光频率均值为473612232111 kHz, 平均时间为1024 s的相对Allan标准差为5.2×10^-11, 频差均值为2.177 MHz, 标准偏差为2 kHz.     

Research on Theoretical Model of Linear Frequency Modulation Interferometry

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Research on Theoretical Model of Linear Frequency Modulation Interferometry

In this paper, the principle of linear frequency-modulation (LFM) with an external microcavity laser is analyzed mathematically and a method to establish the math model of LFM heterodyne interference is presented. The expression of LFM heterodyne interference is deduced by an illustration of a triangular frequency modulation. At present, one application of the LFM technique is non-guide absolute distance measurement. Experimental results of a system for absolute distance measurement based on a microchip solid laser and LFM technique are given. Based on the precisely theoretical model some effective approaches to improve the performance of LFM and decrease the measuring error are discussed.     

光纤干涉测距中光程定位的研究

提出一种由定位干涉仪和测量干涉仪组成的光纤干涉绝对距离测量方法;并用标准长度光纤实现光程倍增以增大测量范围;重点讨论了用脉冲电流调制的准单色光源实现光程定位的方法及其精度。通过理论分析和仿真实验,定位重复性误差优于±1μm。