SPATIALLY RELAYING RADIATION COMPONENTS
    1.
    发明申请
    SPATIALLY RELAYING RADIATION COMPONENTS 有权
    空间继电器辐射组件

    公开(公告)号:US20140036352A1

    公开(公告)日:2014-02-06

    申请号:US14110757

    申请日:2012-04-05

    IPC分类号: G02B27/10 H01S3/08 G01N21/25

    摘要: A method of spatially relaying a first radiation component (1) having a first wavelength and a second radiation component (2) having a second wavelength different from the first radiation component (1), using an optical relaying device (10) which comprises a transparent plate (11) having anti-reflection coatings (12, 13) on both side surfaces thereof, comprises transmitting the first radiation component (1) across the optical relaying device (10) with predetermined incident (a) and emergent angles (β), resp., wherein said anti-reflection coatings (12, 13) being effective for the first radiation component (1) at the incident and emergent angles (α, β), resp., and reflecting the second radiation component (2) at the optical relaying device (10) with a predetermined reflection angle (a) being equal to at least one of said incident and emergent angles (α, β), wherein the first and second radiation components (1, 2) are split from each other toward different directions or combined into a common beam path. Furthermore, an optical relaying device (10) and a resonator device, in particular enhancement cavity device (100) and a laser resonator, are described.

    摘要翻译: 一种使用包含透明的光中继装置(10)的具有第一波长的第一辐射分量(1)和具有不同于第一辐射分量(1)的第二波长的第二辐射分量(2)的空间中继的方法, 在其两个侧表面上具有防反射涂层(12,13)的板(11)包括以预定的入射(a)和出射角(β)穿过光中继装置(10)传输第一辐射分量(1) 其中所述防反射涂层(12,13)在入射角和出射角(α,β)处对于第一辐射分量(1)有效,并且在第二辐射分量(2)处 光学中继装置(10)具有等于所述入射角和出射角(α,β)中的至少一个的预定反射角(a),其中第一和第二辐射分量(1,2)彼此分开朝向 不同的方向或c 被编入共同的光束路径。 此外,描述了光中继装置(10)和谐振器装置,特别是增强型腔装置(100)和激光谐振器。

    Spatially relaying radiation components
    2.
    发明授权
    Spatially relaying radiation components 有权
    空间中继辐射元件

    公开(公告)号:US09030733B2

    公开(公告)日:2015-05-12

    申请号:US14110757

    申请日:2012-04-05

    摘要: A method of spatially relaying a first radiation component (1) having a first wavelength and a second radiation component (2) having a second wavelength different from the first radiation component (1), using an optical relaying device (10) which comprises a transparent plate (11) having anti-reflection coatings (12, 13) on both side surfaces thereof, comprises transmitting the first radiation component (1) across the optical relaying device (10) with predetermined incident (a) and emergent angles (β), resp., wherein said anti-reflection coatings (12, 13) being effective for the first radiation component (1) at the incident and emergent angles (α, β), resp., and reflecting the second radiation component (2) at the optical relaying device (10) with a predetermined reflection angle (a) being equal to at least one of said incident and emergent angles (α, β), wherein the first and second radiation components (1, 2) are split from each other toward different directions or combined into a common beam path. Furthermore, an optical relaying device (10) and a resonator device, in particular enhancement cavity device (100) and a laser resonator, are described.

    摘要翻译: 一种使用包括透明的光中继装置(10)的具有第一波长的第一辐射分量(1)和具有不同于第一辐射分量(1)的第二波长的第二辐射分量(2)的空间中继的方法, 在其两个侧表面上具有防反射涂层(12,13)的板(11)包括以预定的入射(a)和出射角度(&bgr)将第一辐射分量(1)穿过光中继装置(10) 其中所述防反射涂层(12,13)在入射和出射角度(α,θ)处对第一辐射分量(1)有效,并且反射第二辐射分量(2), 在光中继装置(10)上,预定的反射角(a)等于所述入射角和出射角(α,bgr)中的至少一个,其中第一和第二辐射分量(1,2)从 彼此朝向不同的方向或梳子 嵌入共同的光束路径。 此外,描述了光中继装置(10)和谐振器装置,特别是增强型腔装置(100)和激光谐振器。