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    • 1. 发明授权
    • Adjustable/non-adjustable precision optical mounts
    • 可调/不可调精密光学安装座
    • US07679845B2
    • 2010-03-16
    • US11627307
    • 2007-01-25
    • Xiwen Wang
    • Xiwen Wang
    • G02B7/02G03B3/00G01C15/00
    • G02B7/004G02B7/023
    • A highly precision, super stable, structure compact and fully lockable ball joint mechanism optical mounts are presented. Both stationary plate and movable plate have a partial-spherical hole or conical hole. Facing spacing aligns the bases of the partial-spherical holes or conical holes; a space adjustable cavity is formed. An external-spherical circumference shape optical element carrier plate fits and mates in the space adjustable combined cavity forms a ball joint mechanism, or an external-column circumference and edges chamfered optical element carrier plate fits and mates in the space adjustable combined internal-spherical shaped cavity forms an angle tilt-able and around axis swivel-able joint pair mechanism. A removable tooling for exporting a tilting and rotating movement to the optical element carrier plate are presented. Locking ring pushes the movable plate to adjust the combined cavity and locking the optical element carrier plate and to lock optical element that is carried thereby.
    • 提出了一种高精度,超稳定,结构紧凑,全锁定球接头机构光学座架。 固定板和活动板均具有局部球形孔或锥形孔。 面对间距对准部分球形孔或锥形孔的基部; 形成空间可调节空腔。 外球面圆形光学元件承载板配合并配合在空间可调组合腔中形成球接头机构,或外柱圆周边缘倒角光学元件承载板配合并配合在可调节的组合内球形 腔形成角度可倾斜和围绕轴可旋转接头对机构。 提出了用于将倾斜和旋转运动导出到光学元件载体板的可移除工具。 锁定环推动可动板调整组合腔体并锁定光学元件托板并锁定由此承载的光学元件。
    • 2. 发明申请
    • Adjustable/Non-adjustable Precision Optical Mounts
    • 可调/不可调精密光学支架
    • US20080180819A1
    • 2008-07-31
    • US11627307
    • 2007-01-25
    • Xiwen Wang
    • Xiwen Wang
    • G02B7/00
    • G02B7/004G02B7/023
    • A highly precision, super stable, structure compact and fully lockable ball joint mechanism optical mounts are presented. Both stationary plate and movable plate have a partial-spherical hole or conical hole. Facing spacing aligns the bases of the partial-spherical holes or conical holes; a space adjustable cavity is formed. An external-spherical circumference shape optical element carrier plate fits and mates in the space adjustable combined cavity forms a ball joint mechanism, or an external-column circumference and edges chamfered optical element carrier plate fits and mates in the space adjustable combined internal-spherical shaped cavity forms an angle tilt-able and around axis swivel-able joint pair mechanism. A removable tooling for exporting a tilting and rotating movement to the optical element carrier plate are presented. Locking ring pushes the movable plate to adjust the combined cavity and locking the optical element carrier plate and to lock optical element that is carried thereby.
    • 提出了一种高精度,超稳定,结构紧凑,全锁定球接头机构光学座架。 固定板和活动板均具有局部球形孔或锥形孔。 面对间距对准部分球形孔或锥形孔的基部; 形成空间可调节空腔。 外球面圆形光学元件承载板配合并配合在空间可调组合腔中形成球接头机构,或外柱圆周边缘倒角光学元件承载板配合并配合在可调节的组合内球形 腔形成角度可倾斜和围绕轴可旋转接头对机构。 提出了用于将倾斜和旋转运动导出到光学元件载体板的可移除工具。 锁定环推动可动板调整组合腔体并锁定光学元件托板并锁定由此承载的光学元件。
    • 5. 发明申请
    • Adjustable/non-adjustable precision optical mounts
    • 可调/不可调精密光学安装座
    • US20100172038A1
    • 2010-07-08
    • US12658689
    • 2010-02-13
    • Xiwen Wang
    • Xiwen Wang
    • G02B7/02
    • G02B7/004G02B7/023
    • A highly precision, super stable, structure compact and fully lockable ball joint mechanism optical mounts are presented. Both stationary plate and movable plate have a partial-spherical hole or conical hole. Facing spacing aligns the bases of the partial-spherical holes or conical holes; a space adjustable cavity is formed. An external-spherical shape optical element carrier plate fits and mates in the space adjustable combined cavity forms a ball joint mechanism, or an external-column circumference and edges chamfered optical element carrier plate fits and mates in the space adjustable combined internal-spherical shaped cavity forms an angle tilt-able and around axis swivel-able joint pair mechanism. A removable tooling for exporting a tilting and rotating movement to the optical element carrier plate are presented. Locking ring pushes the movable plate to adjust the combined cavity and locking the optical element carrier plate and to lock optical element that is carried thereby.
    • 提出了一种高精度,超稳定,结构紧凑,全锁定球接头机构光学座架。 固定板和活动板均具有局部球形孔或锥形孔。 面对间距对准部分球形孔或锥形孔的基部; 形成空间可调节空腔。 外球形光学元件承载板配合并配合在空间可调组合腔中形成球接头机构,或外柱圆周边缘倒角光学元件承载板配合并配合在空间可调组合内球形腔 形成角度可倾斜和围绕轴可旋转接头对机构。 提出了用于将倾斜和旋转运动导出到光学元件载体板的可移除工具。 锁定环推动可动板调整组合腔体并锁定光学元件托板并锁定由此承载的光学元件。
    • 6. 发明授权
    • Multi-channel polarization beam combiner/splitter
    • 多通道偏振光束组合器/分离器
    • US06973224B1
    • 2005-12-06
    • US10697544
    • 2003-10-30
    • Qi DengLiren DuShuqing MaBing ZhangXiwen WangYonglin Huang
    • Qi DengLiren DuShuqing MaBing ZhangXiwen WangYonglin Huang
    • G02B6/00G02B6/34
    • G02B6/2706G02B6/2773
    • A polarization beam combiner/splitter (“PBCS”) for combining and splitting multiple channels of light beams simultaneously is disclosed. The PBCS includes a first fiber array, a second fiber array, and an optical core composed of a birefringent or other suitable material. The first fiber array includes a plurality of optical fiber pairs, while the second fiber array includes a corresponding plurality of optical fibers. The optical core is sized to modify light beams from any of the optical fibers of the first or second array. In a beam combining operation, multiple channels of polarized beams are emitted by the optical fiber pairs of the first fiber array and passed through the optical core, which combines the beams into dual-polarized combined light beams. The combined beams exit the optical core and are received by the second array of optical fibers. A similar beam splitting operation can be performed on multiple combined beams.
    • 公开了一种用于同时组合和分离多个光束的偏振光束组合器/分离器(“PBCS”)。 PBCS包括第一光纤阵列,第二光纤阵列和由双折射或其它合适材料组成的光学芯。 第一光纤阵列包括多个光纤对,而第二光纤阵列包括相应的多个光纤。 光学核心的大小适于修改来自第一或第二阵列的任何光纤的光束。 在光束组合操作中,多个通道的偏振光束由第一光纤阵列的光纤对发射并通过光纤芯,该光纤将光束组合成双偏光组合光束。 组合光束离开光纤芯并由第二光纤阵列接收。 可以对多个组合的波束执行类似的分束操作。
    • 7. 发明授权
    • Integrated optical isolator and polarization beam combiner
    • 集成光隔离器和偏振束组合器
    • US06919989B1
    • 2005-07-19
    • US10697725
    • 2003-10-30
    • Qi DengXiwen WangBing ZhangLiren DuShuqing MaYonglin Huang
    • Qi DengXiwen WangBing ZhangLiren DuShuqing MaYonglin Huang
    • G02B5/30G02B6/26G02B6/27G02B27/28
    • G02B6/2773G02B6/264G02B6/272
    • A device functions as a polarization beam combiner and an isolator. When light is transmitted in a first propagation direction, a second beam is displaced towards a first beam. The second beam has a polarization orthogonal to the polarization of the first beam, and the second beam is substantially parallel to the first beam. The polarizations of the first and second beams are rotated by a same first amount in a first rotation direction and then rotated by the same first amount in a second opposite rotation direction. The first and second beams are combined by displacing the second beam towards the first beam. The combined beam is polarized along a first plane and second plane, which is orthogonal to the first plane. When light is transmitted in a second opposite propagation direction, the device is used to provide optical isolation.
    • 器件用作偏振束组合器和隔离器。 当光沿第一传播方向传播时,第二光束向第一光束移动。 第二光束具有与第一光束的偏振正交的偏振,第二光束基本上平行于第一光束。 第一和第二光束的偏振在第一旋转方向上旋转相同的第一量,然后在第二相反旋转方向上旋转相同的第一量。 通过将第二光束移向第一光束来组合第一和第二光束。 组合光束沿着与第一平面正交的第一平面和第二平面极化。 当光在第二相反传播方向上传输时,该装置用于提供光隔离。