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    • 4. 发明申请
    • OPTICAL DEVICE
    • 光学装置
    • US20130235459A1
    • 2013-09-12
    • US13883537
    • 2011-10-31
    • Manabu ShiozakiHidehisa Tazawa
    • Manabu ShiozakiHidehisa Tazawa
    • G02B5/18
    • G02B5/18G02B6/29311G02B6/29314G02B6/3512G02B6/356G02B6/4215
    • An optical device 1 comprises an optical I/O unit 10, a transmissive diffraction grating 21, a lens 30, and a mirror array 40. The transmissive diffraction grating 21 has gratings, each extending along an x axis, formed at a fixed period, wavelength-splits the light received from the input port, and outputs wavelength-split light components. The transmissive diffraction grating 21 is rotatable about a predetermined axis. The transmissive diffraction grating 21 outputs the wavelength light components into directions which correspond to the respective wavelengths and are perpendicular to the rotary axis. The lens 30 focuses the wavelength light components wavelength-split and output by the transmissive diffraction grating 21 at respective positions different from each other.
    • 光学装置1包括光学I / O单元10,透射衍射光栅21,透镜30和反射镜阵列40.透射衍射光栅21具有沿x轴延伸的光栅,其形成为固定周期, 波长分割从输入端口接收的光,并输出波长分离的光分量。 透射衍射光栅21可绕预定轴线旋转。 透射衍射光栅21将波长的光分量输出到与各波长对应的方向,并且与旋转轴垂直。 透镜30将由透射衍射光栅21波长分割和输出的波长光分量聚焦在彼此不同的各个位置处。
    • 6. 发明授权
    • Method of operating a tunable optical device
    • 操作可调谐光学器件的方法
    • US07965911B1
    • 2011-06-21
    • US11880114
    • 2007-07-19
    • Thomas Andrew StrasserJefferson L. WagenerChristopher S. Koeppen
    • Thomas Andrew StrasserJefferson L. WagenerChristopher S. Koeppen
    • G02B6/28
    • G02B6/2706G02B6/2931G02B6/29311G02B6/29313G02B6/29314G02B6/29383
    • An optical wavelength routing device utilizes a free space optical beam propagating therethrough is provided. The device includes at least one optical fiber input, at least one optical fiber output, an optical element having an actuator with at least one tilt axis and a diffraction element having a surface thereon. The device also includes an optical beam-splitting element having spatially varying optical properties. An optical beam transfer arrangement is positioned between the optical element and the diffraction element such that tilt actuation of the optical element elicits a proportional change in an angle of incidence of the optical beam onto the diffraction element, wherein the center of rotation for the angular change is the surface of the diffraction element. Optical routing between the fiber input and the fiber output can be configured by the positioning of the optical element.
    • 光波长路由器件利用通过其传播的自由空间光束。 该装置包括至少一个光纤输入,至少一个光纤输出,具有至少一个倾斜轴的致动器的光学元件和在其上具有表面的衍射元件。 该装置还包括具有空间变化的光学特性的光束分离元件。 光束传递装置位于光学元件和衍射元件之间,使得光学元件的倾斜致动引起光束到衍射元件的入射角的成比例的变化,其中角度变化的旋转中心 是衍射元件的表面。 光纤输入和光纤输出之间的光路由光学元件的定位可以配置。
    • 7. 发明授权
    • Nanotube structures and methods for making and using nanotube structures
    • 纳米管结构和制造和使用纳米管结构的方法
    • US07881577B1
    • 2011-02-01
    • US11528708
    • 2006-09-26
    • Sherburne SlackCarlo Pantano
    • Sherburne SlackCarlo Pantano
    • G02B6/04B01L3/02
    • G02B6/29314B01L3/50857B01L2300/0838B01L2300/0896B82Y30/00G02B6/29311Y10T428/13
    • Structures and method for making, using and implementing a drawn preform from a plurality of tubes are provided. The drawn preform includes a first end of the preform defining source side of the preform and a second end of the preform defining a delivery side of the preform. At least some tubes of the plurality of tubes of the second end of the preform are drawn to a dimension of at least less than one micron in size. The drawn preform is capable of including conductors integrated with the tubes, and the conductors enable manipulation of materials (e.g., fluids, chemicals, biological samples, solids, inks, etc.) as the go through the tubes from a source end to the delivery end, or when the material is already present on a target substrate or receiving cell or material.
    • 提供了用于从多个管制造,使用和实施拉制的预成型件的结构和方法。 拉伸的预制件包括预型件的第一端限定预成型件的源侧,并且预成型件的第二端限定预成型件的输送侧。 预成型件的第二端的多个管中的至少一些管被拉伸至至少小于1微米的尺寸。 拉制的预成型件能够包括与管一体的导体,并且导体能够通过管从源端到输送的操作材料(例如,流体,化学品,生物样品,固体,油墨等) 当材料已经存在于目标基底或接收细胞或材料上时。
    • 10. 发明授权
    • Equalizing optical wavelength routers
    • 均衡光波长路由器
    • US07298540B2
    • 2007-11-20
    • US10225936
    • 2002-08-22
    • Song PengMing Li
    • Song PengMing Li
    • G02F1/01G02B5/30G02B5/18H04J14/02H04J14/06
    • G02B6/29314G02B6/2931G02B6/2938
    • A dynamic equalizing optical channel router includes an input port for receiving a wavelength division multiplexed composite optical signal comprising a plurality of channels; at least one output port; a diffraction grating optically coupled to the input and output ports; a lens optically coupled to the diffraction grating at a side opposite to the input and output ports; an array of steering devices optically coupled to the lens at a side opposite to the diffraction grating, wherein each channel is reflected by a different steering device of the array; and a plurality of attenuators, wherein each channel reflected by the array traverses one of the attenuators and the diffraction grating to the at least one output port. The router is able to dynamically adjust optical intensity of each wavelength channel by a different amount while also performing the function of wavelength routing.
    • 动态均衡光信道路由器包括用于接收包括多个信道的波分复用复合光信号的输入端口; 至少一个输出端口; 光学耦合到输入和输出端口的衍射光栅; 在与输入和输出端口相对的一侧光耦合到衍射光栅的透镜; 在与衍射光栅相对的一侧光学地耦合到透镜的转向装置阵列,其中每个通道被阵列的不同转向装置反射; 以及多个衰减器,其中由阵列反射的每个通道将衰减器中的一个和衍射光栅穿过至少一个输出端口。 路由器能够动态地调整每个波长信道的光强度,同时也执行波长路由功能。