表面粗糙度干涉图像处理中的阈值优选

提出用于表面粗糙度自动干涉法测量过程中的一种有效的白光干涉图像阈值分割方法，分割后的二值图像经过干涉条纹边界线萃取后得到的被测表面输廓波形和表面粗糙度参数的计算结果与高精度ＴＡＬＹＳＵＲＦ６型表面粗糙度测量仪的测量结果十分吻合，此种图像分割方法同样也适用于粗糙表面激光干涉图像的二值化分割。     

光滑表面粗糙度Rz参数的一种干涉测量法

介绍了一种光滑表面粗糙度Rz 参数的干涉测量法.该方法用空气膜层上表面与样本表面的基准面平 行的方式来观察等厚干涉条纹, 用干涉条纹间的相对运动来判断样本表面的峰谷, 同时也给出了新的Rz 计算公 式.该方法测量过程较简单、 对仪器要求较低且有助于样本的表面微观形貌分析     

入射角和薄片表面特性对激光干涉测温的影响

以激光干涉为理论基础,采用具有不同表面光学特性的单晶硅片和K-8光学玻璃为样品,针对不同的测量条件,研究干涉条纹对比度变化对温度测量的影响.分析了薄片干涉条纹对比度与测量光束直径、入射角、样品表面粗糙度以及表面镀膜之间的相互关系,研究了薄片的横向温度梯度对干涉对比度的影响.实验结果表明,上述各因素对温度测量参量对比度产生的影响具有规律性,并在一定对比度阈值条件下,能够满足精确测温的条件要求.     

基于多波长干涉的瞬态轮廓检测Mirau显微镜

针对单波长Mirau干涉显微镜存在测量范围小和2π模糊等问题,提出了多波长Mirau偏振干涉显微镜,以实现微观轮廓的大动态范围测量的和表面粗糙度等显微结构的瞬态检测。系统利用R、G、B三个单色LED光源实现多波长干涉;利用彩色偏振相机获取瞬态相移干涉条纹图,降低实时瞬态检测中复杂的环境扰动影响;利用线栅偏振片调节条纹对比度,满足不同被测对象的反射率检测要求。为验证系统方案的可行性,经过系统误差补偿校准后测量标称值为1.993 9μm的标准微米台阶,结果与标称值的偏差约为5.4 nm。利用该方法与Wyko干涉仪对金刚石车削凸面反射镜表面微观轮廓和表面粗糙度进行测量,表面粗糙度测量结果均方根值偏差为3.7 nm,验证了该系统可实现高精度的大动态范围测量。     

非平行光干涉照明显微镜三维形貌检测研究

为实现表面微观形貌快速而较简单的检测, 一种使用非平行光干涉照明的光学显微三维形貌检测方法被提出。该方法使用空间光调制器对激光光束进行衍射, 选取光强相近的2个衍射级通过显微物镜, 双光束干涉可得到周期接近图像分辨率、相位可精确调节的照明条纹, 被测样本的三维形貌可通过拍摄4帧等相位差的条纹照明图像来计算得到。该方法不需借助干涉物镜产生条纹, 不需要轴向扫描装置记录条纹变化, 相位调节精确, 成像直观。此外, 该方法所产生干涉条纹的相位随坐标线性变化, 不需对条纹周期进行修正。因为照明条纹参数调节光路独立于显微成像光路, 系统装置具有光路简洁、易于调节的优点。为验证所提出三维检测精度, 以粗糙度100 nm的粗糙度对比模块和硅片为被测样品进行了三维轮廓重建实验, 实验结果显示, 所提出方法轴向重复性测量精度为8.6 nm(2σ)。     

激光自混频干涉法测量表面粗糙度的研究

对半导体激光自混频干涉法测量表面粗糙度中的干涉效应进行了理论分析,推导了干涉信号与表面粗糙度的数学关系式,讨论了影响测量信号的因素及表征表面粗糙度的评定参数,即表面轮廓的方均根偏差。结果表明,随着加工表面粗糙度的降低,反射光的强度逐渐增加,被测物体表面的反射率越高,越有利于测量。     

低频声表面波对细激光束的衍射效应

对于频率为几十赫兹的液体表面声波,实验上观察到反射光所形成的稳定、清晰的激光干涉图样.改变表面声波振幅,进一步发现了干涉图样的调制效应.调制效应明显地表现为干涉条纹的缺级,并且随表面声波振幅变化.依据波动光学原理,分析了调制作用下光束干涉所产生的光强解析分布及条纹特征,得到了干涉条纹角宽度与表面声波之间的解析关系,并据此对表面声波的特性参量波长和振幅及各级条纹相对光强分布规律进行了测定.     

干涉测量系统中杂散条纹影响的抑制

 为了抑制杂散条纹的影响，提出了一种简单实用的单幅三表面干涉条纹傅里叶分析法，它根据三表面干涉时各个表面干涉的条纹调制度不同，从三表面干涉图的频谱中提取测试面的频谱，从而准确地恢复测试面的面形。模拟结果证明了该方法的有效性，准确度可以达到l/1 000。实验表明：单幅三表面干涉条纹傅里叶分析法得到的面形形状与波长调谐时域傅里叶变化法和涂消光漆法得到的结果基本一致，PV值和RMS值与波长调谐时域傅里叶变化法相差分别为0.001l和0.004l，与涂消光漆法相差分别为0.042l和0.019l。通过7次单幅三表面干涉条纹傅里叶分析法测量，得到PV和RMS值的重复性分别为0.007 8l和0.002 6l。     

用数值模拟方法研究面光源劈尖干涉问题

在面光源照射下,给出了劈尖表面可观察到干涉条纹的条件,通过Matlab软件进行数值计算,分析了劈尖表面的干涉条纹数目对光源距离和尺寸的依赖关系,结果表明,对给定的光源宽度,要在劈尖表面观察到一定级数的条纹,光源距离不能低于一定的值．这种数值模拟方法对设计复杂的非平行光薄膜等厚干涉试验有参考价值．     

基于CCD采集的Math-Zehnder干涉条纹图的处理算法

Math-Zehnder干涉仪适用于研究气体密度迅速变化的状态。由于气体折射率的变化与其密度的变化成正比，而折射率的变化将使通过气体的光线有不同的光程，因此可通过干涉臂变化对干涉条纹图像效果的影响得到气体密度。实测中，采用图像采集卡和CCD来接收Math-Zehnder干涉仪产生的条纹图像，再通过计算机对条纹图像的条纹间距进行处理，从而得到气体密度的变化状态。从光干涉理论出发，对Math-Zehnder干涉条纹图像特征进行了分析，建立了Math-Zehnder干涉条纹的数学模型，并根据此模型设计了处理Math-Zehnder干涉条纹图像的算法。算法包括图像的预处理(即图像的噪声提取)、图像的二值化及图像的细化。     

Quantum teleportation for continuous variables and related quantum information processing

Quantum teleportation is one of the most important subjects in quantum information science. This is because quantum teleportation can be regarded as not only quantum information transfer but also a building block for universal quantum information processing. Furthermore, deterministic quantum information processing is very important for efficient processing and it can be realized with continuous-variable quantum information processing. In this review, quantum teleportation for continuous variables and related quantum information processing are reviewed from these points of view.     

A Review of Research Trends in Microwave Processing of Metal-Based Materials and Opportunities in Microwave Metal Casting

Microwave processing of materials has emerged as a new method for processing of a variety of materials in the recent years. Microwaves have been used effectively with significant advantages, particularly in food processing and chemical synthesis. They are also found to be efficient for processing polymers, ceramics, polymeric composites, and ceramic composites. The physics of interaction of microwaves with characteristically different materials is not yet explored well; consequently, there are challenges in microwave processing of metal-based materials. Industrial processing of bulk metal is yet to be popular in spite of the fact that the feasibility of metal powder sintering was demonstrated a few decades ago. This article provides a summary of fundamental aspects of microwave processing of metal-based materials and their interaction with metallic materials. The processing challenges have been surveyed; developments in terms of techniques and tooling have been analyzed. Possible effects of microwave processing on metallic materials, in particular metal powders, bulk metals, bulk metal-metal powder systems, and sheet metals have been presented. Future research aspects of microwave processing of metallic materials with reference to metal casting have been identified.     

Modeling of NMR processing, toward efficient unattended processing of NMR experiments

Many alternative processing techniques have recently been proposed in the literature. Most of these techniques rely on specific acquisition protocols as well as on specific data processing techniques, the need for an efficient versatile and expandable NMR processing tool would be a particularly timely addition to the modern NMR spectroscopy laboratory. The work presented here consists in a modeling of the various possible NMR data processing approaches. This modeling presents a common working frame for most of the modern acquisition/processing protocols. Two different data modeling approaches are presented, strong modeling and weak modeling, depending whether the system under study or the measurement is modeled. The emphasis is placed on the weak modeling approach. This modeling is implemented in a computer program developed in python and called NPK standing (standing for NMR Processing Kernel), organized in four logical layers (i) mathematical kernel; (ii) elementary actions; (iii) processing phases; (iv) processing strategies. This organisation, along with default values for most processing parameters allows the use of the program in an unattended manner, producing close to optimal spectra. Examples are shown for 1D and 2D processing, and liquid and solid NMR spectroscopy. NPK is available from the site: http://abcis.cbs.cnrs.fr/NPK.     

One-operation image algebra for optical processing

A binary image algebra with one operation of a logic operation followed by a dilation and its modification with three additional operations for threshold processing of grey level images are developed in this paper. All the binary image processing functions and various grey level image processing functions related to morphological operations can be represented by the algebraic structure. The algebra is particularly suitable for parallel processing by optics in a cellular logic image processor architecture.     

高密度等离子体工艺总体模型初探

介绍了与高密度等离子体工艺相关的模型和数值模拟方法,即连续流和动力学方法。在漂流－扩散方程的连续流模型和单元粒子／蒙特卡罗碰撞动力学模型的基础上,提出了一个等离子体工艺模型。讨论了对等离子体鞘层、等离子体刻蚀和淀积过程的模拟方法,提出了一个高密度等离子体工艺总体模型的初步方案。     

伏安法测电阻的方法研究

研究了初中伏安法测电阻的电路选择方法和数据处理方法,完善了电路选择方法,拓展和规范了现行教科书的数据处理方法;依据标配电表和待测电阻参量给出了运用电路选择方法的可行结果,结合实测数据给出了运用数据处理方法的合理结果,提出了相应的教学建议.     

The development of recent high-power ultrasonic transducers for Near-well ultrasonic processing technology

With the reduction of crude oil throughout the world, enhance oil recovery technology has become a major oil research topics, which can greatly increase the recovery ratio of the crude oil before the dawning of renewable energy era. Near-well ultrasonic processing technology, as one new method, has attracted more attention for Enhanced Oil Recovery due to its low cost, good applicability and no environmental pollution in recent rears. There are two important relevant aspects about Near-well ultrasonic processing technology: (a) how to enhance the oil flow through the rocks into the pumping pool and (b) how to reduce the oil viscosity so that it can be easier to pump. Therefore, how to design a high-power ultrasonic equipment with excellent performance is crucial for Near-well ultrasonic processing technology. In this paper, recent new high-power ultrasonic transducers for Near-well ultrasonic processing technology are summarized. Each field application of them are also given. The purpose of this paper is to provide reference for the further development of Near-well ultrasonic processing technology.With the reduction of crude oil throughout the world, enhance oil recovery technology has become a major oil research topics, which can greatly increase the recovery ratio of the crude oil before the dawning of renewable energy era. Near-well ultrasonic processing technology, as one new method, has attracted more attention for Enhanced Oil Recovery due to its low cost, good applicability and no environmental pollution in recent rears. There are two important relevant aspects about Near-well ultrasonic processing technology: (a) how to enhance the oil flow through the rocks into the pumping pool and (b) how to reduce the oil viscosity so that it can be easier to pump. Therefore, how to design a high-power ultrasonic equipment with excellent performance is crucial for Near-well ultrasonic processing technology. In this paper, recent new high-power ultrasonic transducers for Near-well ultrasonic processing technology are summarized. Each field application of them are also given. The purpose of this paper is to provide reference for the further development of Near-well ultrasonic processing technology     

条纹图象的数字化自动分析处理技术之二:相位分析法

相位分析法是目前光学条纹图象数字化自动分析处理中的最重要方法之一。本文较全面地介绍了相位分析技术,并对相位分析的关键技术--相位的滤波和解包络方法做了重点说明。文中给出了相位解包络的实例并讨论了图象数字化自动分析处理技术的实际应用状况。     

图像处理智能化的发展趋势

介绍了图像处理的发展趋势,对图像处理智能化的理论研究、智能高效的算法和并行处理的硬件系统等几个有关智能图像处理的问题进行了综述与评论。指出无论从军事自动目标识别（ATR）的需求考虑,还是从光学成像仪器的发展,网络视频通信,以及各种高技术的发展来看,图像处理的智能化都具有极其重要的意义,是今后图像处理领域的发展趋势。最后建议近期的工作应围绕在复杂背景下的目标自动捕获（ATA）方面开展研究。     

New ultrasonic assisted technology of freezing,cooling and thawing in solid food processing: A review

Solid foods include fish, shrimp, shellfish, and other aquatic products, fruits, and vegetables. These products are commonly used for food freezing, cooling, and thawing. However, traditional freezing, cooling, and thawing of solid food technologies have limitations in quality, such as protein denaturation and water loss in food. Ultrasound-assisted technology has become a useful method in solid food processing due to improved preservation quality of solid food. This paper comprehensively reviews the mechanism and application of ultrasonic in solid food processing technology. Although the application of ultrasound-assisted ultrasound in solid food processing is relatively comprehensive, the energy saving of food cold processing is essential for practical application. This paper analyzes the optimization of ultrasonic in solid food processing, including orthogonal/multi-frequency technology and the combination of ultrasonic and other technologies, which provides new ideas for freezing, cooling, and thawing of solid food processing.