近红外波段CO2分子弛豫动力学效应对光声信号的影响

介绍了一种基于低功率的分布反馈式(DFB)半导体激光器和自行设计的一阶纵向共振光声池构成的共振光声光谱测量系统.该系统具有结构简单、操作方便、价格低廉等优点.通过对光声池的性能进行的研究,实验研究和理论分析具有很好的一致性;系统地研究了近红外1.573μm附近分子弛豫效应对光声探测CO2信号的影响,并给出了相应的理论分析,表明利用分子弛豫效应可有效地提高系统探测灵敏度.     

高浓度气体共振光声光谱信号饱和特性研究

采用恒流驱动耦合机械斩波技术在激光光声光谱装置上系统测量了5%—100%宽浓度范围甲烷气体的共振光声信号,发现在高浓度区共振光声信号呈现异常的饱和特征.基于气体吸收和光声光谱原理定量分析了光声信号饱和的主要原因及影响因素,研究表明,气体样本对入射光强吸收而导致的声源与本征共振模式的耦合系数改变是异常饱和的主要原因,并导出判定光声信号饱和深度的准则以用于判定高浓度气体饱和深度。     

固体中光声喇曼效应的原理特性分析

从相干喇曼放大过程出发,运用准平衡模型以及热弹理论,对固体样品中光声喇曼效应进行理论分析,导出了脉冲激光泵浦下的光声喇曼信号表达式,并做了数值估算.总结分析了固体介质中光声喇曼效应的一些特性.     

NdBa2Cu3-xMnxOy体系的结构和声子振动

利用X光衍射、红外光谱、电子顺磁共振等实验手段对多晶样品NdBa2Cu3-xMnxOy(0≤x≤0.3)的结构、声子振动和自旋关联情况进行了研究.结果表明:随着Mn掺杂浓度的增加,样品由四方结构转变为正交结构.红外谱的研究发现:所有样品在580cm-1附近都有一个峰,强度随着掺杂浓度的增加而增强,振动膜逐渐软化这和样品的微结构变化密切有关.ESR研究表明: NdBa2Cu3-xMnxOy体系在不掺杂或低掺杂浓度时只有很弱的自旋共振信号,进一步增加Mn含量,自旋信号增强,线宽降低,显示Mn掺杂浓度增加引起Mn离子的自旋局域化程度增强.本文讨论了掺杂对结构、红外谱和自旋关联的影响.     

周期性起伏四层磁性薄膜的克尔效应

结合干涉光刻和磁控溅射制备了一维周期性起伏的磁性多层薄膜。利用扫描探针显微镜对样品的微结构进行表征,利用椭偏仪和磁光测量系统对样品的光学性能参数和磁光克尔效应进行测试和研究。实验结果发现,磁性多层薄膜磁光性能得到极大的提升,磁光增强的克尔谱峰值与条带的宽度、中间层二氧化铪层的厚度有关;利用介质层的厚度可调制复合薄膜的磁光特性。进一步研究发现横克尔效应的增强现象。理论计算的结果证实,磁光增强源于光学腔干涉共振和磁等离激元的耦合效应。     

一种高Q值椭圆差分共振光声腔的理论研究

光声腔的性能是决定光声光谱检测灵敏度的重要因素。为了增强光声光谱检测系统的信噪比和抗干扰能力,本文首次提出一种新型的椭圆差分共振光声腔,建立了其声学特征模型并利用COMSOL软件对光声腔的声学特性进行仿真研究。研究结果表明,当椭圆截面上的混合模态在短轴方向存在奇数个角向波节时,长轴两端声压达到峰值且相位反相;当椭圆腔的半长轴长度低于4cm时,谐振频率能达到10kHz以上,Q值可达到1 835。基于这种椭圆差分光声腔,可实现光声信号的差分检测,抑制环境共模噪声;利用共振腔的高Q值特性,能有效地增强系统信噪比,实现高灵敏度的光声检测。     

基于微型非共振腔的石英增强光声光谱用于氦气纯度分析的实验研究

实验中设计了一种基于微型非共振腔的石英增强光声光谱痕量气体传感器, 用来检测非纯氦气中的痕量氨气浓度. 该传感器采用的微型非共振腔只在空间上限制声波扩散以达到增强信号目的, 而不是像传统微型共振腔一样依靠共振效应. 如此的设计使探测小分子无机气体的光谱测声器尺寸远远小于共振腔的配置而有利于准直. 不同气压下的信号和噪声也被研究, 用来优化传感器性能. 在这种配置下和27.7 kPa的最优气压下, 获得的最佳氨气探测灵敏度为463 ppb (1σ , 1 s积分时间), 相应的归一化噪声等效吸收系数为4.3×10^-9cm^-1W/√Hz. 关键词： 气体传感器 石英增强光声光谱 音叉式石英晶振 类氢气体纯度分析     

共振光声光谱系统中椭球形光声池的理论分析

实时在线气体检测在石油化工、现代工业、环境、医学诊断、智能电网中变压器在线监测等领域具有非常重要的意义。光声光谱气体检测技术是一种基于光声效应的气体检测技术,由于其具有检测灵敏度高、选择性强、分辨率高、检测范围宽、可实时在线监测等优点,已被广泛用于痕量气体检测。在光声光谱系统中,光声池是最重要的组成部分,其性能的好坏对于系统检测灵敏度和分辨率有着直接的影响。近些年来,光声光谱气体检测系统主要采用标准圆柱形共振光声池,系统的检测灵敏度和分辨率主要由微音器决定。为了进一步提高光声光谱法对于痕量气体检测的灵敏度和分辨率,对光声池进行深入研究分析,提出一种高灵敏度的椭球形共振光声池。结合气体热动力学和声学理论,利用COMSOL软件中的热声学模块分别对椭球形光声池和传统的圆柱形光声池进行了有限元方法分析,建立了其声学特征模型,并且对光声池的共振频率,光声池谐振腔内的声压分布情况以及声压级大小等声学特性进行了仿真研究。模拟了椭球形光声池的共振频率和声压信号大小与光声池谐振腔长度和中心半径之间的关系,从而优化了光声池的尺寸结构,选取了长度为100 mm,中心半径为5 mm的椭球形光声池最优结构,与相同外部尺寸下的传统圆柱形光声池进行了对比分析。结果表明,椭球形光声池的共振频率为1 340 Hz,处于共振状态时产生的声压信号达到了5.01×10~(-5) Pa,声压级为11 dB,品质因数为70;圆柱形光声池共振频率为1 650 Hz,共振状态下产生的声压信号大小为5.7×10~(-6)Pa,声压级为-13.9 dB,品质因数为66。对比可知,椭球形光声池的共振频率明显小于圆柱形光声池,且最大声压信号是同尺寸圆柱形共振光声池的8.78倍,声压级提高了24.9 dB。由此可知,设计的椭球形共振光声池体积小,声压信号大,检测灵敏度高,光声池的性能有了明显提升,对于光声光谱法用于微痕量气体检测的灵敏度提高有着重要意义。     

声悬浮过程的格子Boltzmann方法研究

采用轴对称多弛豫时间格子Boltzmann(LB)方法,研究了圆柱形封闭谐振腔中圆盘形样品的声悬浮过程.模拟结果表明,(001)模式下谐振腔的共振长度L=0.499λ,在谐振腔中心引入样品后共振漂移量δL≈-0.9,这与线性声学理论计算结果基本相符.声悬浮力的LB模拟过程包含了黏滞性效应和共振漂移效应,所获得的模拟结果与理论公式计算值在量值上一致,而且其在细节上更符合实验现象.此外,LB模拟还揭示出了声悬浮过程中的声压波形畸变、声流和声辐射压等非线性声学效应.     

光声光谱气体传感技术研究进展

光声光谱是通过光声效应把样品吸收光谱转换成声波探测,实现样品成分、浓度分析检测的一种光谱传感技术,是光谱学的一个重要分支。光声光谱除了具有吸收光谱的高选择性、高灵敏度外,还具有信号只跟样品光吸收有关,不受散射光影响,零背景, 信号与光功率成正比以及信号探测器不受光波长影响等诸多优点。在环境监测、工业过程控制与检测、医学诊断和国防危化品检测等领域得到了越来越多的应用,呈现出快速发展的趋势。除了传统的共振光声光谱技术,近年来先后出现了悬臂增强型光声光谱、石英音叉谐振增强型光声光谱、多通道光声光谱等各具特色的新技术。对光声光谱气体传感技术的研究进展进行了介绍,并分析了其应用前景和未来发展趋势。     

Resonantly enhanced strip-line technique to measure microwave permeability of thin films

The sensitivity of a reflective single-port strip-line technique is increased by 10-20 times by amplification of a measured reflectivity response at a set of resonance frequencies. The resonant behavior is organized by connecting the strip cell to a network analyzer through a capacitor with a long coaxial cable. The capacitance defines the amplification; the cable length defines the resonance frequencies. S-parameters of the coaxial-to-strip junction and the field inhomogeneity inside the cell are accounted for by a reference measurement of sample with known constitutive parameters. Two methods for permeability calculation are suggested. The fist method is based on the comparison of Lorentzian parameters of resonance reflectivity curves. The second method is based on numerical solution of Fresnel's equation. The enhancement is essential at low-frequency part of the band, where the cell reflectivity is close to unity and the sensitivity of non-resonant technique is poor. The technique sensitivity is estimated by permeability measurements of Al stripes with different cross-section.     

非线性调频信号激励下非线性系统的最优共振响应

非线性调频(NLFM)信号在雷达、通信、信号处理中应用广泛,该类信号所激励下的非线性系统响应有着丰富的信息,通过共振来增强NLFM信号具有一定实际意义与价值.本文主要研究了受到不同类型NLFM信号所激励的非线性系统共振现象,提出了实时尺度变换方法来处理高频NLFM信号,克服人为选择造成信号输出响应较差的缺点.同时,提出实时谱放大因子作为共振评价指标,准确评价NLFM信号激励下的系统共振响应,讨论系统参数对系统最优共振响应的影响,参数选择在合理的区间内即可实现最优共振响应,不仅实现信号特征的大幅增强,还保持信号时频特征的连续性.最后,将实时尺度变换方法和固定尺度变换方法进行对比,说明所提方法处理NLFM信号的优越性.     

Novel resonance profiling and tracking method for photoacoustic measurements

Resonant photoacoustic (PA) detection is widely used in several atmospheric and industrial monitoring applications due to its high sensitivity and short response time. However, unexpected changes in the acoustic resonance frequency of a PA cell caused by sudden changes either in the composition or the temperature of the sample gas can largely diminish the precision of the PA measurement. This paper describes a novel method for tracking such changes in resonance frequency. Besides improving the measurement precision, the introduced CHIrped modulation for Resonance Profiling (CHIRP) method has the additional advantage of maintaining the fast response time of the PA system without using any additional hardware components. The minimum detectable water vapor concentration, depending on the modulation bandwidth of the CHIRP, was found to be 0.3–0.5 ppm in nitrogen buffer gas. The applicability of the CHIRP method was demonstrated in PA measurements in a buffer gas with varying composition, which are typical in, e.g., industrial monitoring applications.     

The properties of spin echo signal in ferromagnetic domain walls

The domain-wall enhanced spin echo amplitude was calculated for the case of unequal lengths of the exciting pulses. The values thus obtained were compared with results of experiments performed on pure iron powder. Good agreement was obtained at exact resonance, but discrepancies were observed when frequency of exciting pulses differed from the NMR frequency. Special measurements were carried out in order to obtain the value of rf. field intensity inside the powder particles and the maximum enhancement factor related to this value was calculated.     

Identifying magnetic response of split-ring resonators at microwave frequencies

In this study we provide experimental methods to identify the magnetic resonance of split ring resonantors (SRR) at the microwave frequency regime. Transmission measurements were performed on both single SRR unit cell and periodic arrays of SRRs. The magnetic response of the SRR structure was demonstrated by comparing the transmission spectra of SRRs with closed ring resonators (CRR). Effects of the changes in the effective dielectric constant of the SRR medium on the band-gaps of SRR are investigated experimentally. SRRs not only exhibit a magnetic resonance band gap but also a band gap due to the electric resonance. Finally, we present the effect of electric coupling to the magnetic resonance of bianisotropic SRRs by utilizing SRRs with different orientations, and incident electromagnetic wave polarizations.     

Influence of the light intensity on the operation of the self-oscillation photoacoustic setup

In the traditional approach to photoacoustic measurements, the light source modulation frequency is fixed, or a resonance tracking mechanism is applied, that adjusts the modulation frequency to the instantaneous value of the resonance frequency of the cell, especially in the case of high Q-factor cells. However, photoacoustic measurements can also be based on a novel method in which the light intensity is modulated by the photoacoustic signal induced in the cell, hence forming a photoacoustic oscillator. Frequency of such an oscillator and shape of the resulting photoacoustic signal depend mainly on the resonance properties of the cell, but also on the power of the light irradiating the investigated sample. This paper describes the influence of the intensity of light used for exciting the photoacoustic signal on the operation of such a photoacoustic generator.     

Effect of spatially nonlocal versus local optical response of a gold nanorod on modification of the spontaneous emission

The spontaneous emission rate of a two-level quantum emitter(QE)near a gold nanorod is numerically investigated.Three different optical response models for the free-electron gas are adopted,including the classical Drude local response approximation,the nonlocal hydrodynamic model,and the generalized nonlocal optical response model.Nonlocal optical response leads to a blueshift and a reduction in the enhancement of the spontaneous emission rate.Within all the three models,the resonance frequency is largely determined by the aspect ratio(the ratio of the nanorod length to the radius)and increases sharply with decreasing aspect ratio.For nanorod with a fixed length,it is found that the larger the radius is,the higher the resonance frequency is,and the smaller the enhancement is.However,if the length of the nanorod increases,the peak frequency falls sharply,while the spontaneous emission enhancement grows rapidly.For nanorod with a fixed aspect ratio,the peak frequency decreases slowly with increasing nanorod size.Larger nanorod shows smaller nonlocal effect.At a certain frequency,there is an optimal size to maximize the enhancement of the spontaneous emission rate.Higher order modes are more affected by the nonlocal smearing of the induced charges,leading to larger blueshift and greater reduction in the enhancement.These results should be significant for investigating the spontaneous emission rate of a QE around a gold nanorod.     

地表振动传感器质量对水平耦合谐频的影响*

使用振声法探测埋地物体时,表层土壤松软导致地表振动传感器在耦合环节发生谐振, 造成谐频附近的信号失真,限制了所采信号的可用频段。针对传感器在水平方向的耦合谐振问题,该文研究了传感器质量对谐振频率的影响。仿真对比了传感器质量为2~250 g情况下信号采集系统的频响特征,并在季节性的冻土地表开展了对比实验与横波波速测量实验。仿真与实验结果表明：250 g传感器所对应的耦合谐频不超过800 Hz;2 g传感器的耦合谐频可超过1200 Hz;传感器质量越轻,耦合谐振频率越高,所采信号的可用频段越宽。     

有机分子第一超极化率色散效应和双光子共振增强理论研究

采用含时Hartree-Fock和多态求和方法计算了半花菁衍生物生色团的第一超极化率色散效应. 采用二能级模型研究了第一超极化率的双光子共振增强特征. 研究发现，第一激发态对半花菁非线性光学性质起决定性作用，随着入射光波长向短波方向移动，二次谐波产生β(-2ω;ω,ω)不断增大并且在950nm附近出现双光子共振效应，理论结果与实验结果较好相符. 此外，共振条件下的二能级模型需要考虑激发态弛豫效应. 研究结果为实验测量和实际应用提供了理论参考. 关键词： 分子非线性光学 超极化率 色散效应 共振增强     

Investigation of a slot nanoantenna in optical frequency range

Following the analogy of radio frequency slot antenna and its complementary dipole, we propose the implementation of a slot nanoantenna (SNA) in the optical frequency range. Using finite-difference time-domain (FDTD) method, we investigate the electromagnetic (EM) properties of a SNA formed in a thin gold film and compare the results with the properties of a gold dipole nanoantenna (DNA) of the same dimension as the slot. It is found that the response of the SNA is very similar to the DNA, like their counterparts in the radio frequency (RF) range. The SNA can enhance the near field intensity of incident field which strongly depends on its feedgap dimension. The resonance of the SNA is influenced by its slot length; for the increasing slot length, resonant frequency decreases whereas the sharpness of resonance increases. Besides, the resonance of the SNA is found sensitive to the thickness of metal film, when the latter is smaller than the skin depth. The effect of polarization of incident field on the EM response of the SNA was examined; the field enhancement is optimum when polarization is parallel to the feedgap. Finally, we calculate the radiation patterns of the DNA and SNA and compare them with those of the RF dipole antenna. The radiation pattern of the SNA is found to be independent of its slot length when excited at resonant frequency. To the best of our knowledge, this is the first study on a slot antenna in the optical frequency.