应用于高性能光学薄膜表征的光热光声检测技术

本文介绍了光热与光声探测技术的基本原理,结合光学薄膜的吸收测试、光学薄膜的激光辐照特性表征、激光损伤特性表征以及光学薄膜的机械性质表征等各种具体应用,对激光量热法、光热偏转法、表面声波法等典型的光热、光声检测方法进行了分析;阐述了这些方法的测试原理以及各自优势与不足。介绍了该领域利用这些方法取得的一些成果,并就光声光热检测技术的发展趋势做了展望。     

《光声光热技术及其应用》书评

虽然上世纪末年已经发现了光声效应,直到本世纪七十年代起,光声光热技术才与现代激光技术和弱信号检测技术等相结合而开始迅速发展。由于这种技术的检测灵敏度高,可测的波谱范围宽,而且在测定物质物理、化学特性等方面成功地解决了不少其他方法不易解决的难题,因而在物理、化学、生物、医学、环境科学和材料科学等许多领域中得到了广泛而有效的应     

生物医学光声成像的研究进展

光声成像是21世纪初发展起来的新兴的生物医学成像技术,它同时具备光学成像和声学成像两者的优点,因而备受关注。本文对生物医学光声成像的发展进行了综述。首先,介绍了光声成像的特点以及相对于广泛应用的光学成像技术和声学成像技术的优点;其次,在成像原理上解释了光声成像优点的成因,并介绍了光声断层成像和光声显微镜这两种典型的光声成像技术;再次,详细介绍了多尺度的光声图像分辨率和成像深度,以及多信息维度的光声成像参数;最后,展望了光声成像在生物医学领域的应用潜力并讨论了其局限性。     

光声成像研究进展

本文阐述了光声成像的工作原理,光声信号的产生,传播和探测过程,并总结了光声成像的研究进展,包括时域光声成像和频率域光声成像的研究进展、以及各自的特点,为光声成像领域的研究起到一定的借鉴作用。分析认为光声成像技术有着其他医学成像技术没有的诸多优点,如高分辨率、高对比度、成像深度深等具有广阔的应用前景和较高应用价值,是未来生物医学领域最重要的实时医学成像技术之一,因此得到了国际上的广泛关注。     

自适应多光谱光声成像技术研究

光声成像技术是利用激光照射组织产生超声波成像的新型医学影像技术.在传统光声成像中,由于组织体内复杂的成分与环境会对入射光波产生较大的扰动而导致波前畸变、图像分辨率下降,从而降低诊断的准确性.为了克服这一影响,本文提出了一种自适应多光谱光声成像技术.该技术利用自适应光学技术可有效地降低组织对光波扰动的影响,提高系统成像分辨率与图像对比度.此外,该系统还融合了多光谱成像技术,可在多种波长下对目标成像,从而更好地进行组织结构识别、组分分析等.实验结果表明,该系统十分适用于复杂的生物组织光声成像,可极大地增强光声成像性能,在生物医学领域具有广阔的应用前景.     

凝聚态物质中的光声喇曼效应理论

用热弹性理论系统地分析了凝聚态物质的光声喇曼效应,分别导出了连续和脉冲激光泵浦下的光声喇曼信号表达式,并做了数值估算.     

多模态光声分子成像进展*

现代的各种医学影像术,如射线成像、CT、正电子发射(PET)、磁共振(MR)、超声(US)、荧光(FL)等都各具特色,并成功地应用于多种疾病的诊疗。但每种影像术都不能对生物组织做出完整的描述。由若干个成像技术组成的多模态成像技术,是获得组织更多信息的有效途径。光声(PA)成像是能提供组织的成分和功能信息的新成像技术。它不仅灵敏,可以对较深层的组织进行实时、快速、安全的成像,而且可以利用光声光热造影剂实施非侵入的光热靶向治疗。因此,与光声成像相结合的多模态分子成像是实现精准诊疗的重要技术途径。该文以手持US-PA探头的双模态成像系统,直径为1 mm的血管內窥镜US-PA成像系统,可同时用于术前和术中的US-PA-FL三模态成像系统,以及采用外磁场可操控的磁共振-光声光热分子造影剂、进行MR-PA成像引导的光热治疗技术为例,对多模态光声分子成像系统在医学诊断、手术和光热治疗方面的进展做简单介绍。     

光热偏转成像实验

概述了光热偏转成像原理,搭建了热波成像光热偏转自动化检测系统,并实现了数据采集和数据处理的自动化.利用该实验系统绘制了直线划痕SrBT样品和三角划痕硅片样品的表面光热偏转图,成像结果清晰直观.     

Determination of thermal effusivity of solids by a photoacoustic scanning technique

A new method is proposed to determine the thermal effusivity of solid samples using a one dimensional photoacoustic scanning technique. The method employs a sample configuration in which the backing for a good light absorber layer is changed from a reference sample to the unknown sample by scanning the absorber surface with an incident modulated light beam. From the measured phase difference or amplitude ratio one can determine the thermal effusivity of the unknown sample, knowing the effusivity of the reference sample. The Rosencwaig-Gersho theory of photoacoustic effect has been extended to the present experimental situation and expressions have been derived for photoacousitc phase difference and amplitude ratio as the backing is changed. Values calculated using these expressions are found to agree well with measured values for different sample combinations except in amplitude ratio values when the thermal effusivities of the samples differ very widely. The reason for this disagreement is discussed.     

Thermal diffusivity of light-emitting diode packaging material determined by photoacoustic piezoelectric technique

Thermal property is one of the most important properties of light-emitting diode (LED).Thermal property of LED packaging material determines the heat dissipations of the phosphor and the chip surface,accordingly having an influence on the light-emitting efficiency and the life-span of the device.In this paper,photoacoustic piezoelectric (PAPE) technique has been employed to investigate the thermal properties of polyvinyl alcohol (PVA) and silicon dioxide,which are the new and the traditional packaging materials in white LED,respectively.Firstly,the theory of PAPE technique has been developed for two-layer model in order to investigate soft materials;secondly,the experimental system has been set up and adjusted by measuring the reference sample;thirdly,the thermal diffusivities of PVA and silicon dioxide are measured and analysed.The experimental results show that PVA has a higher thermal diffusivity than silicon dioxide and is a better packaging material in the sense of thermal diffusivity for white LED.     

利用激光光热技术研究钛酸钡材料的导热性能

利用激光光热偏转技术测量了钛酸钡材料的热扩散率。根据所测量材料的光热光偏转信号,通过最小二乘法中的非线性拟合,直接拟合出了材料的热扩散率,克服了光热偏转技术中“Mirage effect”步骤多、计算复杂、误差大的缺点。测量了在不同成型压力和不同烧结温度下钛酸钡材料的热扩散率,得到了热扩散率随成型压力和烧结温度的变化规律。对实验结果进行了分析和讨论。     

Thermal characterisation of dye-intercalated K-10 montmorillonite ceramics using photoacoustic technique

Thermal diffusivity (TD) measurements were performed on some industrially important dyes – auramine O (AO), malachite green and methylene blue (MB) – adsorbed K-10 montmorillonites using photoacoustic method. The TD value for the dye-adsorbed clay mineral was observed to change with a variation in dye concentration. The contribution of the dye towards TD was also determined. The repeatedly adsorbed samples with MB and AO exhibited a lower TD than the single-adsorbed samples. TD values of sintered MB samples were also obtained experimentally. These sintered samples exhibit a higher TD, although they show a trend similar to that of non-sintered pellets. A variation in dye concentration and sintering temperature can be used for tuning the TD value of the clay mineral to the desired level.     

旋转对称椭球颗粒沿轴脉冲光声波波形的几何计算

针对旋转对称椭球颗粒脉冲光声波的产生,推导沿其对称轴方向的波形的解析表达式.结果表明,无论是长椭球还是扁椭球颗粒,沿轴波形相对于球形颗粒所产生的N形波都有一定的形变,并且在近场条件下显示出能反映椭球颗粒形状与大小的明显特征.因此通过对脉冲光声波的测量和分析,能对旋转对称椭球颗粒进行形貌判定.     

室温离子液体中超声制备纳米氧化锌掺杂材料及机理研究

在室温离子液体1-丁基-3-甲基咪唑四氟硼酸盐(ImBF_4)中超声制备镧系离子掺杂的纳米氧化锌材料,采用X射线衍射、透射电镜、光声光谱和荧光光谱技术表征样品结构和发光性能。为研究反应机理,采用甲基自由基复合法对离子液体的空化温度进行间接实测,进一步与空化动力学的数值分析结果进行比较。实验结果表明镧系离子掺杂可以有效地调控氧化锌的发光。与传统溶剂不同,离子液体空化温度不随超声时间的延长而降低,并随环境温度升高略有上升。反应机理的研究表明样品的形成生长与超声辐照和离子液体的共同作用密不可分。     

A quartz-enhanced photoacoustic spectroscopy sensor for measurement of water vapor concentration in the air

A compact and highly linear quartz-enhanced photoacoustic spectroscopy(QEPAS)sensor for the measurement of water vapor concentration in the air is demonstrated.A cost-effective quartz tuning fork(QTF)is used as the sharp transducer to convert light energy into an electrical signal based on the piezoelectric effect,thereby removing the need for a photodetector.The short optical path featured by the proposed sensing system leads to a decreased size.Furthermore,a pair of microresonators is applied in the absorbance detection module(ADM)for QTF signal enhancement.Compared with the system without microresonators,the detected QTF signal is increased to approximately 7-fold.Using this optimized QEPAS sensor with the proper modulation frequency and depth,we measure the water vapor concentration in the air at atmospheric pressure and room temperature.The experimental result shows that the sensor has a high sensitivity of 1.058parts-per-million.     

A novel demonstration of photoacoustic Raman spectroscopy with combined stimulated Raman pumping in H2 molecule

We present the experimental demonstration of a novel, efficient, and vibrational selective technique to prepare population in vibrational level v″ = 1 using the stimulated Raman pumping. Photoacoustic Raman signal has been studied in non-radiative transitions in the molecule H₂ (v″ = 0) and (v″ = 1). The population fraction in the v″ = 1 level can be estimated by using combined photoacoustic Raman spectroscopy with stimulated Raman pumping for the first time.