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    • 11. 发明授权
    • Optical relay with adjustable magnification
    • 光学继电器具有可调放大
    • US09459145B1
    • 2016-10-04
    • US14212489
    • 2014-03-14
    • Thomas A. Mitchell
    • Thomas A. Mitchell
    • G01J3/28G01J3/02G02B15/14
    • G01J3/0237G01J3/0208G02B13/24G02B15/14G02B15/155
    • The present disclosure provides an optical imaging system with adjustable magnification. In one aspect, the optical imager, which defines an optical axis, includes an object plane and an image plane, an optical sub-system located along the optical axis and optically disposed between the object plane and the image plane, the optical sub-system being configured to substantially image electromagnetic radiation emanating from the object plane onto the image plane, and at least one detecting element located substantially at the image plane. In one example, the object plane and the image plane are separated by a fixed distance. In one example, the optical sub-system is configured to mechanically translate along the optical axis.
    • 本公开提供了具有可调放大倍数的光学成像系统。 在一个方面,限定光轴的光学成像器包括物平面和像平面,沿着光轴定位并光学地设置在物平面和像平面之间的光学子系统,光学子系统 被配置为将从物体平面发射的电磁辐射基本上成像到图像平面上,以及至少一个基本上位于像面处的检测元件。 在一个示例中,物平面和图像平面被分开固定的距离。 在一个示例中,光学子系统被配置为沿着光轴机械平移。
    • 12. 发明授权
    • Alignment systems for spectrometers
    • 光谱仪对准系统
    • US07595875B1
    • 2009-09-29
    • US11557611
    • 2006-11-08
    • Thomas A. Mitchell
    • Thomas A. Mitchell
    • G01J3/18G01J3/28
    • G01J3/02G01J3/0202G01J3/0208G01J3/06G01J3/18
    • A spectrometer having a housing, where the housing also includes a structure located within the housing, the structure being adapted to hold a reflective dispersive element and being movable in a direction substantially perpendicular to an interior longitudinal axis. An actuator arm extends from a location exterior to the housing to another location inside the housing. The actuator arm is disposed through an opening in the housing and is operatively connected to the structure. A cryogenic actuator motor is operatively connected to the actuator arm, thereby enabling movement of the structure and the reflective dispersive element in a direction substantially perpendicular to said interior longitudinal axis, whereby alignment of the spectrometer is enabled.
    • 一种具有壳体的光谱仪,其中壳体还包括位于壳体内的结构,该结构适于保持反射色散元件并且可在基本上垂直于内部纵向轴线的方向上移动。 致动器臂从壳体外部的位置延伸到壳体内的另一位置。 致动器臂通过壳体中的开口设置并且可操作地连接到结构。 低温致动器电动机可操作地连接到致动器臂,从而使得结构和反射色散元件能够在基本上垂直于所述内部纵向轴线的方向上移动,从而能够进行光谱仪的对准。
    • 14. 发明授权
    • Compact hyperspectral imager
    • 紧凑型超光谱成像仪
    • US07199876B2
    • 2007-04-03
    • US10750014
    • 2003-12-31
    • Thomas A. Mitchell
    • Thomas A. Mitchell
    • G01J3/28
    • G01J3/02G01J3/0208G01J3/0291G01J3/2823
    • A hyperspectral imager including a first optical sub-system, at least one slit element, a second optical sub-system, at least one reflective dispersive element located at a center plane, and at least one detecting element located at substantially an image surface. During operation, the first optical sub-system images, onto the slit element(s), electromagnetic radiation originating at a source. The second optical sub-system substantially collimates, at a center plane, electromagnetic radiation emanating from the slit element(s). The second optical sub-system also images, onto the image surface, the electromagnetic radiation reflected from the reflective dispersive element(s). The detecting element(s) detect the dispersed electromagnetic radiation reflected from the reflective dispersive element(s).
    • 包括第一光学子系统,至少一个狭缝元件,第二光学子系统,位于中心平面的至少一个反射色散元件和位于大致图像表面的至少一个检测元件的高光谱成像器。 在操作期间,第一光学子系统在狭缝元件上成像来自源的电磁辐射。 第二光学子系统在中心平面处基本上准直从狭缝元件发出的电磁辐射。 第二光学子系统还将从反射色散元件反射的电磁辐射图像到图像表面上。 检测元件检测从反射色散元件反射的分散的电磁辐射。
    • 19. 发明授权
    • Compact fast catadioptric imager
    • 紧凑型快折反射成像仪
    • US07701647B2
    • 2010-04-20
    • US11754026
    • 2007-05-25
    • Thomas A. Mitchell
    • Thomas A. Mitchell
    • G02B17/00
    • G02B17/0808
    • A compact, optically fast catadioptric imager. In one embodiment, the catadioptric imager of this invention includes a first group of optical elements optically disposed to receive electromagnetic radiation from an object and having positive optical power, a second group of optical elements, optically disposed between the first group of optical elements and an image plane, having at least one optical surface and having positive optical power, a third group of optical elements, optically disposed between the object and the second group of optical elements, having at least one optical surface and having negative optical power, a fourth group of optical elements substantially centered along an optical axis of said second group of optical elements and having negative optical power, and a fifth group of optical elements having positive optical power.
    • 紧凑的光学快折反射成像仪。 在一个实施例中,本发明的反折射成像器包括第一组光学元件,光学设置为接收来自物体的电磁辐射并具有正光学功率,第二组光学元件,光学地设置在第一组光学元件和 具有至少一个光学表面并具有正光焦度的第三组光学元件,第三组光学元件,光学地设置在物体和第二组光学元件之间,具有至少一个光学表面并具有负光焦度;第四组 的光学元件基本上沿着所述第二组光学元件的光轴居中并且具有负的光学功率,以及具有正光焦度的第五组光学元件。