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    • 4. 发明授权
    • Optical characterisation methods and systems
    • 光学表征方法和系统
    • US08064063B2
    • 2011-11-22
    • US12374255
    • 2007-07-20
    • Kris NaessensRonny BockstaeleBert LuyssaertRoeland Baets
    • Kris NaessensRonny BockstaeleBert LuyssaertRoeland Baets
    • G01N21/00
    • G01N21/05G01N21/532G01N2021/0346G01N2021/6482
    • A device (100) for assisting in optical characterisation of a sample fluid. The device can comprise a substrate (102) with at least one measurement reservoir (104) adapted for filling with the fluid (106) in a filling direction. The device (100) thereby is adapted for receiving an illumination beam (108) for illuminating the fluid (106) in the at least one measurement reservoir (104). The at least one measurement reservoir is adapted for varying the rate of change of an optical path length of the illumination beam in the fluid. The measurement reservoir properties are adapted for providing information of an optical path length of the illumination beam in the fluid at a plurality of moments during the filling with the fluid. Furthermore a corresponding optical characterisation device is described. The invention also relates to a corresponding method.
    • 一种用于辅助样品流体的光学表征的装置(100)。 该装置可以包括具有适于在填充方向上填充流体(106)的至少一个测量容器(104)的基底(102)。 因此,装置(100)适于接收用于照亮所述至少一个测量容器(104)中的流体(106)的照明光束(108)。 所述至少一个测量容器适于改变流体中照明束的光程长度的变化率。 测量储存器属性适于在填充流体期间的多个时刻提供流体中的照明光束的光程长度的信息。 此外,描述了相应的光学表征装置。 本发明还涉及相应的方法。
    • 5. 发明申请
    • COMPACT CATADIOPTRIC SPECTROMETER
    • 紧凑的CATADIOPTRIC SPECTROMETER
    • US20090310135A1
    • 2009-12-17
    • US12374247
    • 2007-07-20
    • Ronny BockstaeleBert LuyssaertKris Naessens
    • Ronny BockstaeleBert LuyssaertKris Naessens
    • G01J3/28G02B5/18G02B27/30
    • G01J3/1804G01J3/02G01J3/0205G01J3/0208G01J3/0256G01J3/0264G01J3/0294G01J3/18
    • An optical characterisation system is described for characterising optical material. The system typically comprises a diffractive element (104), a detector (106) and an optical element (102). The optical element (102) thereby typically is adapted for receiving an illumination beam, which may be an illumination response of the material. The optical element (102) typically has a refractive surface for refractively collimating the illumination beam on the diffractive element (104) and a reflective surface for reflecting the diffracted illumination beam on the detector (106). The optical element (102) furthermore is adapted for cooperating with the diffractive element (104) and the detector (106) being positioned at a same side of the optical element (102) opposite to the receiving side for receiving the illumination beam.
    • 描述了用于表征光学材料的光学表征系统。 该系统通常包括衍射元件(104),检测器(106)和光学元件(102)。 因此,光学元件(102)通常适于接收可以是材料的照明响应的照明光束。 光学元件(102)通常具有用于折射地准直衍射元件(104)上的照明光束的折射表面和用于将衍射照射光束反射在检测器(106)上的反射表面。 光学元件(102)还适于与衍射元件(104)和检测器(106)配合,所述衍射元件(104)位于与用于接收照明光束的接收侧相对的光学元件(102)的同一侧。
    • 6. 发明授权
    • Compact catadioptric spectrometer
    • 小型反射折射光谱仪
    • US07864317B2
    • 2011-01-04
    • US12374247
    • 2007-07-20
    • Ronny BockstaeleBert LuyssaertKris Naessens
    • Ronny BockstaeleBert LuyssaertKris Naessens
    • G01J3/28
    • G01J3/1804G01J3/02G01J3/0205G01J3/0208G01J3/0256G01J3/0264G01J3/0294G01J3/18
    • An optical characterisation system is described for characterising optical material. The system typically comprises a diffractive element (104), a detector (106) and an optical element (102). The optical element (102) thereby typically is adapted for receiving an illumination beam, which may be an illumination response of the material. The optical element (102) typically has a refractive surface for refractively collimating the illumination beam on the diffractive element (104) and a reflective surface for reflecting the diffracted illumination beam on the detector (106). The optical element (102) furthermore is adapted for cooperating with the diffractive element (104) and the detector (106) being positioned at a same side of the optical element (102) opposite to the receiving side for receiving the illumination beam.
    • 描述了用于表征光学材料的光学表征系统。 该系统通常包括衍射元件(104),检测器(106)和光学元件(102)。 因此,光学元件(102)通常适于接收可以是材料的照明响应的照明光束。 光学元件(102)通常具有用于折射地准直衍射元件(104)上的照明光束的折射表面和用于将衍射照射光束反射在检测器(106)上的反射表面。 光学元件(102)还适于与衍射元件(104)和检测器(106)配合,所述衍射元件(104)位于与用于接收照明光束的接收侧相对的光学元件(102)的同一侧。
    • 7. 发明授权
    • Method and system for optically coupling components
    • 用于光学耦合部件的方法和系统
    • US07445390B2
    • 2008-11-04
    • US11523990
    • 2006-09-20
    • Bert LuyssaertKris NaessensRonny Bockstaele
    • Bert LuyssaertKris NaessensRonny Bockstaele
    • G02B6/36
    • G02B6/42G02B6/262G02B6/4214G02B6/4225
    • A method is described for providing a predetermined optical path in an optical module, the predetermined optical path being defined by predetermined optical characteristics for the optical module. a modifiable optical element is provided at a predetermined position in the optical module, thus generating an initial optical path of the optical module. The modifiable optical element comprising at least one optical interface in the initial optical path. An optical signal is detected from a radiation beam on the initial optical path of the optical module. The optical interface of the modifiable optical element is then physically modified to generate at least one modified optical interface of the modifiable optical element. The physical modification takes into account the detected optical signal so as to obtain substantially the predetermined optical characteristics for the optical module.
    • 描述了一种用于在光学模块中提供预定光路的方法,所述预定光路由光学模块的预定光学特性限定。 在光学模块中的预定位置处设置可修改的光学元件,从而产生光学模块的初始光路。 可修改的光学元件包括初始光路中的至少一个光学接口。 从光学模块的初始光路上的辐射束检测光信号。 然后物理地修改可修改光学元件的光学接口以产生可修改的光学元件的至少一个修改的光学接口。 物理修改考虑了所检测的光信号,以便获得光学模块的基本上预定的光学特性。
    • 8. 发明申请
    • Method and system for optically coupling components
    • 用于光学耦合部件的方法和系统
    • US20070077009A1
    • 2007-04-05
    • US11523990
    • 2006-09-20
    • Bert LuyssaertKris NaessensRonny Bockstaele
    • Bert LuyssaertKris NaessensRonny Bockstaele
    • G02B6/30G02B6/36
    • G02B6/42G02B6/262G02B6/4214G02B6/4225
    • A method is described for providing a predetermined optical path in an optical module, the predetermined optical path being defined by predetermined optical characteristics for the optical module. a modifiable optical element is provided at a predetermined position in the optical module, thus generating an initial optical path of the optical module. The modifiable optical element comprising at least one optical interface in the initial optical path. An optical signal is detected from a radiation beam on the initial optical path of the optical module. The optical interface of the modifiable optical element is then physically modified to generate at least one modified optical interface of the modifiable optical element. The physical modification takes into account the detected optical signal so as to obtain substantially the predetermined optical characteristics for the optical module.
    • 描述了一种用于在光学模块中提供预定光路的方法,所述预定光路由光学模块的预定光学特性限定。 在光学模块中的预定位置处设置可修改的光学元件,从而产生光学模块的初始光路。 可修改的光学元件包括初始光路中的至少一个光学接口。 从光学模块的初始光路上的辐射束检测光信号。 然后物理地修改可修改光学元件的光学接口以产生可修改的光学元件的至少一个修改的光学接口。 物理修改考虑了所检测的光信号,以便获得光学模块的基本上预定的光学特性。
    • 9. 发明申请
    • OPTICAL CHARACTERISATION METHODS AND SYSTEMS
    • 光学特征方法与系统
    • US20090323069A1
    • 2009-12-31
    • US12374255
    • 2007-07-20
    • Kris NaessensRonny BockstaeleBert LuyssaertRoeland Baets
    • Kris NaessensRonny BockstaeleBert LuyssaertRoeland Baets
    • G01N21/11G01N21/00
    • G01N21/05G01N21/532G01N2021/0346G01N2021/6482
    • A device (100) for assisting in optical characterisation of a sample fluid. The device can comprise a substrate (102) with at least one measurement reservoir (104) adapted for filling with the fluid (106) in a filling direction. The device (100) thereby is adapted for receiving an illumination beam (108) for illuminating the fluid (106) in the at least one measurement reservoir (104). The at least one measurement reservoir is adapted for varying the rate of change of an optical path length of the illumination beam in the fluid. The measurement reservoir properties are adapted for providing information of an optical path length of the illumination beam in the fluid at a plurality of moments during the filling with the fluid. Furthermore a corresponding optical characterisation device is described. The invention also relates to a corresponding method.
    • 一种用于辅助样品流体的光学表征的装置(100)。 该装置可以包括具有适于在填充方向上填充流体(106)的至少一个测量容器(104)的基底(102)。 因此,装置(100)适于接收用于照亮所述至少一个测量容器(104)中的流体(106)的照明光束(108)。 所述至少一个测量容器适于改变流体中照明束的光程长度的变化率。 测量储存器属性适于在填充流体期间的多个时刻提供流体中的照明光束的光程长度的信息。 此外,描述了相应的光学表征装置。 本发明还涉及相应的方法。