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    • 2. 发明授权
    • Optical shutter for spectroscopy instrument
    • 光学仪器光学快门
    • US06753959B2
    • 2004-06-22
    • US09958448
    • 2001-10-05
    • Michael R. HammerMartin K. MastersStewart R. CampbellPeter G. Layton
    • Michael R. HammerMartin K. MastersStewart R. CampbellPeter G. Layton
    • G01J328
    • G01J5/62G01J3/02G01J3/0213G01J3/0227G01J3/0229G01J3/0232G01J3/1809G01J3/2803G01J2003/1828G01N21/27G01N21/31
    • Spectroscopy apparatus for spectrochemical analysis of a sample having an excitation source (60) for providing spectral light (62) of the sample for analysis. The spectral light (62) is analysed via an optical system (64-66-68) that includes a polychromator (70, 74-80) and solid state multielement array detector (82). The elements (i.e. pixels) of the detector (82) are serially reel by means (84) to provide light intensity measurements as a function of wavelength. A problem is that the elements (pixels) of the detector (82) continue to accumulate change during the serial read-out. This is avoided by providing an optical shutter (72) for blocking the spectral light (62) whilst elements (pixels) of the detector (82) are being serially read. Shutter (72) has a piezoelectric actuator which is preferably a bimorph mounted as a cantilever. It is preferably located adjacent to the entrance aperture (70) of the polychromator. Bimorph structures for the actuator and drive and protective circuit arrangements are also disclosed.
    • 具有用于提供用于分析的样品的光谱光(62)的激发源(60)的样品的光谱分析用光谱仪。 分光光(62)通过包括多色分光器(70,74-80)和固态多元件阵列检测器(82)的光学系统(64-66-68)进行分析。 检测器(82)的元件(即,像素)通过装置(84)串联卷绕以提供作为波长的函数的光强度测量。 问题在于,在串行读出期间,检测器(82)的元件(像素)继续积累变化。 这是通过提供用于阻挡分光光(62)的光学快门(72)而避免的,同时检测器(82)的元件(像素)被串行读取。 快门(72)具有压电致动器,其优选地是作为悬臂安装的双压电晶片。 它优选地位于多色调色板的入口孔(70)附近。 还公开了用于致动器和驱动器和保护电路装置的双压电晶片结构。
    • 4. 发明授权
    • System for spectrometry
    • 光谱测定系统
    • US06710872B1
    • 2004-03-23
    • US09660592
    • 2000-09-13
    • Koji NakamuraFumiko OsumiHidetsugu Matsushita
    • Koji NakamuraFumiko OsumiHidetsugu Matsushita
    • G01J328
    • G01J3/28
    • A system for spectrometry includes an input device, a measuring device with a spectrophotometer, a calculating device and an output device for outputting results of calculations by the calculating device. The input device allows a user to input target wavelengths at which spectrometric measurements are to be carried out, character arrays representing variables assigned to measured values which are to be stored, and character arrays representing calculation formulas created according to specified rules. The measuring device serves to measure a sample spectrometrically with the spectrophotometer to obtain measured values at the inputted target wavelengths. The calculating device analyzes the character arrays representing the calculating formulas and carries out calculations of the calculating formulas by replacing any of the character arrays representing the variables, if contained in the calculating formulas, each by corresponding one of the measured values.
    • 用于光谱测定的系统包括输入装置,具有分光光度计的测量装置,计算装置和用于输出计算装置的计算结果的输出装置。 输入装置允许用户输入要执行光谱测量的目标波长,表示分配给要存储的测量值的变量的字符数组和表示根据规定的规则创建的计算公式的字符数组。 测量装置用于用分光光度计测量样品的光谱,以获得输入目标波长的测量值。 计算装置分析表示计算公式的字符数组,并且通过将表示变量的任何字符数组(如果包含在计算公式中)各自由相应的一个测量值替换来计算计算公式。
    • 5. 发明授权
    • Temperature compensation method for wavemeters
    • 波长计温度补偿方法
    • US06667804B1
    • 2003-12-23
    • US09686483
    • 2000-10-10
    • Juergen Kleinschmidt
    • Juergen Kleinschmidt
    • G01J328
    • G01J9/0246
    • A wavemeter for monitoring a wavelength of emission from a tunable laser includes a spectrometer disposed within a housing having a controlled pressure, and a temperature sensor and/or a pressure sensor for sensing the temperature and/or pressure, respectively, within the housing. The temperature and/or pressure are controlled such that they have relative values, and materials are selected, each for substantially minimizing temperature sensitivity of the spectrometer, such as for providing a temperature sensitivity of the spectrometer within ±0.1 pm/°K.
    • 用于监测来自可调谐激光器的发射波长的波长计包括设置在具有受控压力的壳体内的光谱仪,以及分别用于感测壳体内的温度和/或压力的温度传感器和/或压力传感器。 控制温度和/或压力使得它们具有相对值,并且选择材料,每个用于基本上最小化光谱仪的温度敏感性,例如用于将光谱仪的温度敏感度提供在±0.1pm /°K内。
    • 9. 发明授权
    • Compact birefringent spectrometer
    • 紧凑型双折射光谱仪
    • US06618142B1
    • 2003-09-09
    • US09891704
    • 2001-06-26
    • Mark W. Roberts
    • Mark W. Roberts
    • G01J328
    • G01J3/28G01J3/0256G01J3/0259
    • A spectrometer uses collimated, P-polarized light made incident on a surface of an optically transparent material at angle &thgr;INC. The material transmits the light which reaches a boundary surface between the input material and an output optically transparent material. The input material is preferably highly dispersive, making Snell component values at the boundary surface markedly different for different wavelengths. The output material is preferably of low dispersion and high birefringence. Only one wavelength at the boundary surface has a Snell component value tangent to its corresponding index surface in the output section. Within this section, the ray vector for this wavelength is parallel to the boundary surface. Because optical energy propagates in the ray vector direction, only the narrow range of wavelengths having ray vectors substantially parallel to the boundary surface reach an output surface of the device. This narrow range of wavelengths comprises the passband incident on a detector.
    • 光谱仪使用以角度θINC入射在光学透明材料的表面上的准直的P偏振光。 该材料透射到达输入材料和输出光学透明材料之间的边界表面的光。 输入材料优选是高度分散的,使得在不同波长处的边界表面上的Snell分量值显着不同。 输出材料优选为低分散性和高双折射性。 在边界面上只有一个波长的Snell分量值与输出部分的相对应的折射面相切。 在该部分内,该波长的射线矢量平行于边界面。 因为光能在光线向量方向传播,所以只有具有基本上平行于边界表面的射线矢量的窄波长范围到达装置的输出表面。 这种窄的波长范围包括入射到检测器上的通带。
    • 10. 发明授权
    • Spectrometry measuring apparatus
    • 光谱测量仪
    • US06597451B1
    • 2003-07-22
    • US09686934
    • 2000-10-12
    • Nobuhiro Araki
    • Nobuhiro Araki
    • G01J328
    • G01J3/02G01J3/0208G01J3/1838G01J3/20
    • In a spectrographic type spectrometry measuring apparatus employing a concave holographic diffraction grating or a replica thereof, a small-size and light-weight spectrometry measuring apparatus having a high reliability with a spectrum position does not move in a photo detector plane in spite of an occurrence of a temperature change. This measuring apparatus is composed of a light-condensing device, a concave holographic diffraction grating or a replica thereof, and a telecentric correction lens for condensing a diffracted light from the diffraction grating telecentrically on the spectrum condensing plane. In this constitution, the spectral ray enters vertically to the spectrum focusing plane, and if the photo detector is moved in the optical axis direction due to a temperature change, the spectrum is not moved on the photo detector surface, and it is not necessary to calibrate an optical element due to an ambient temperature change.
    • 在使用凹面全息衍射光栅或其复制品的光谱型光谱测量装置中,尽管发生了光谱检测器平面中具有光谱位置的高可靠性的小尺寸和重量轻的光谱测量装置不会移动 的温度变化。 该测量装置由聚光装置,凹面全息衍射光栅或其复制品组成,以及用于将衍射光栅的衍射光以中心方向聚集在光谱冷凝平面上的远心校正透镜。 在这种结构中,光谱射线垂直于光谱聚焦平面进入,并且如果光电检测器由于温度变化而在光轴方向上移动,则光谱在光检测器表面上不移动,并且不需要 由于环境温度变化,校准光学元件。