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    • 4. 发明授权
    • Triaxial ring laser gyroscope with independent cavity length control
    • 具有独立腔长控制的三轴环激光陀螺仪
    • US5371589A
    • 1994-12-06
    • US358947
    • 1989-05-30
    • Graham J. Martin
    • Graham J. Martin
    • G01C19/66H01S3/083G01B9/02
    • H01S3/083G01C19/665
    • A monolithic triaxial ring laser gyroscope includes three orthogonal ring cavities, the optical path length of each of which is independently controllable. Three planar ring cavities are formed within a frame that is shaped into the form of a rhombic dodecahedron. A mirror is fixed to each of the twelve faces of the frame for directing the counter propagating light beams within the three orthogonal cavities. Anodes which communicate with the cavities through bore holes are fixed to predetermined surfaces of the frame while three cathodes are positioned at flattened portions of preselected vertices of the dodecahedron and located in such a way as to eliminate undesired bias resulting from Fresnel-Frizeau effects.
    • 单片三轴环激光陀螺仪包括三个正交的环形腔,其中每一个的光程长度可独立控制。 在框架内形成三个平面的环形空腔,该框架成形为菱形十二面体的形式。 镜子被固定到框架的十二个面中的每一个面上,用于将反向传播的光束引导到三个正交空腔内。 通过钻孔与空腔连通的阳极被固定在框架的预定表面上,而三个阴极被定位在十二面体的预选顶点的平坦部分,并且以这样的方式定位,以消除由菲涅尔 - Frizeau效应产生的不期望的偏差。
    • 7. 发明授权
    • Ring laser gyroscope with geometrically induced bias
    • 环形激光陀螺与几何诱导偏差
    • US5080487A
    • 1992-01-14
    • US928069
    • 1986-11-06
    • Graham J. Martin
    • Graham J. Martin
    • G01P9/00G01C19/64G01C19/66H01S3/083
    • G01C19/667
    • An out of plane ring laser gyroscope comprises a frame and a cavity formed in the frame to provide a non-planar closed optical pattern. A gain medium produces two light beams propagating in opposite directions in the cavity. A magnetic device applies an axial magnetic field to the gain medium to allow only light of opposite circular polarizations to lase in opposite directions. The gain medium and resonant cavity alone will allow left and right circularly polarized modes to lase in both clockwise and anticlockwise directions simultaneously. The application of the axial magnetic field to the gain region shifts the center of the gain profile for the clockwise right circularly polarized and anticlockwise left circularly polarized beams with respect to the gain profile center for the anticlockwise right circularly polarized and clockwise left circularly polarized beams. The cavity length can then be adjusted so that lasing action in two of the four modes is suppressed leaving only modes of opposite polarization propagating in opposite directions. The out of plane geometry of the cavity forces these modes to resonate at greatly different frequencies and hence prevents frequency locking over a very large range of input rotation rates.
    • 平面外环形激光陀螺仪包括在框架中形成的框架和空腔以提供非平面闭合光学图案。 增益介质产生在空腔中沿相反方向传播的两个光束。 磁性装置向增益介质施加轴向磁场,以允许相反的圆偏振光仅在相反的方向上发光。 单独的增益介质和谐振腔将允许左右圆偏振模式同时沿顺时针和逆时针方向发光。 将轴向磁场施加到增益区域使得用于顺时针右圆偏振和逆时针左圆偏振光束的增益曲线的中心相对于逆时针右圆偏振和顺时针左圆偏振光束的增益分布中心偏移。 然后可以调节腔长度,使得四种模式中的两种模式中的激光作用被抑制,仅留下相反极性的模式在相反方向上传播。 空腔的平面外几何形状迫使这些模式以非常不同的频率共振,因此防止在非常大的输入旋转速率范围内的频率锁定。
    • 9. 发明授权
    • Optical cross-connect
    • 光交叉连接
    • US07356216B1
    • 2008-04-08
    • US11613489
    • 2006-12-20
    • Graham J. MartinJian MaChialun Tsai
    • Graham J. MartinJian MaChialun Tsai
    • G02B6/26
    • G02B6/3518G02B6/32G02B6/3546G02B6/3636G02B6/3652
    • An optical cross-connect is provided. The optical cross-connect includes a glass wedge, having a front end and a back end, positioned between a first one-dimensional collimator array and a second one-dimensional collimator array, where the first collimator array includes a first V-groove array having a first set of etched grooves for placing a first group of optical fibers and the second collimator array includes a second V-groove array having a second set of etched grooves for placing a second group of optical fibers; and a MEMS substrate attached at a fixed distance to the front end of the glass wedge, where the front end is covered in a reflective coating for reflecting light from the first and second collimator arrays onto the MEMS substrate.
    • 提供光交叉连接。 光学交叉连接器包括具有位于第一一维准直器阵列和第二一维准直器阵列之间的前端和后端的玻璃楔,其中第一准直器阵列包括第一V形槽阵列,其具有 用于放置第一组光纤的第一组蚀刻槽,并且所述第二准直器阵列包括具有用于放置第二组光纤的第二组蚀刻槽的第二V形槽阵列; 以及安装在玻璃楔的前端固定距离的MEMS基板,其中前端被反射涂层覆盖,用于将来自第一和第二准直器阵列的光反射到MEMS基板上。