会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 6. 发明申请
    • Flow cell for optical detection having reduced sensitivity to refractive index variation
    • 用于光学检测的流动池具有降低的对折射率变化的敏感性
    • US20050094158A1
    • 2005-05-05
    • US10700947
    • 2003-10-31
    • Barbara PaldusAlexander KatchanovRobert Lodenkamper
    • Barbara PaldusAlexander KatchanovRobert Lodenkamper
    • G01N21/39G01B9/02
    • G01N21/39
    • An apparatus for cavity enhanced optical detection comprising: a) a source of optical radiation b) a resonant optical cavity which provides a round trip path for said optical radiation the cavity comprising: i) a plurality of mirrors, the first mirror being an input mirror which receives the optical radiation and inputs it into the cavity; ii) a flow cell positioned within said cavity, said flow cell comprising at least a first analysis channel which accommodates a flow of analyte fluid there through, iii) a second mirror, which second mirror receives the radiation from the optical source after its passage through both said input mirror and said analysis channel and reflects said received radiation. The resonant optical cavity provides a round trip path for analyte fluid having at least two different refractive index values and the location of the point at which said reflected radiation impinges on said input mirror remains substantially the same as the point from which said first mirror inputs said radiation into said cavity notwithstanding changes in the refractive index of the analyte fluid or the wavelength of the optical radiation.
    • 一种用于空腔增强光学检测的装置,包括:a)光辐射源; b)谐振光学腔,其为所述光辐射提供所述光辐射的往返路径,所述光腔包括:i)多个反射镜,所述第一反射镜是输入镜 其接收光辐射并将其输入到腔中; ii)位于所述空腔内的流动池,所述流动池包括至少第一分析通道,其容纳其中通过的分析物流体流,iii)第二反射镜,所述第二反射镜在其通过之后接收来自光源的辐射 所述输入反射镜和所述分析通道都反映所述接收的辐射。 谐振光学腔提供具有至少两个不同折射率值的分析物流体的往返路径,并且所述反射辐射照射在所述输入反射镜上的点的位置保持与所述第一反射镜从其输入所述输入反射镜的点大致相同 尽管分析物流体的折射率或光辐射的波长发生变化,但是辐射进入所述腔。
    • 9. 发明授权
    • Apparatus and method for determining wavelength from coarse and fine measurements
    • 用于从粗细测量确定波长的装置和方法
    • US06859284B2
    • 2005-02-22
    • US10308779
    • 2002-12-02
    • Chris W. RellaAlexander Katchanov
    • Chris W. RellaAlexander Katchanov
    • G01J3/26G01J9/02G01B9/02
    • G01J9/0246
    • The present invention provides an apparatus for determining a wavelength of an optical signal by determining a coarse wavelength response and a fine wavelength response. The coarse wavelength response is achieved by utilizing an optical filter. A suitable detector detects the wavelength-dependent response and conveys the determined coarse wavelength response to the processing logic. The fine wavelength response is achieved by utilizing an interferometer that is capable of generating an interference pattern. Two detectors are disposed in the interference pattern at a quadrature separation from each other and detect the intensity responses at their respective locations. The intensity responses are conveyed to a unit that determines the fine wavelength response. Finally, the processing logic determines the wavelength utilizing the determined coarse wavelength response and the determined fine wavelength response.
    • 本发明提供一种通过确定粗略的波长响应和精细的波长响应来确定光信号的波长的装置。 通过利用光学滤波器实现粗略的波长响应。 合适的检测器检测与波长相关的响应,并将确定的粗波长响应传送到处理逻辑。 通过利用能够产生干涉图案的干涉仪来实现良好的波长响应。 两个检测器以干涉图案彼此正交分离地设置并检测其各自位置处的强度响应。 强度响应被传送到确定精细波长响应的单元。 最后,处理逻辑使用所确定的粗略波长响应和确定的精细波长响应来确定波长。