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    • 1. 发明申请
    • MICRORESONANTOR SYSTEMS AND METHODS OF FABRICATING THE SAME
    • 微波分解系统​​及其制备方法
    • WO2009017770A2
    • 2009-02-05
    • PCT/US2008/009225
    • 2008-07-30
    • HEWLETT-PACKARD DEVELOPMENT COMPANY, L. P.TAN, MichaelWANG, Shih-YuanSTEWART, DuncanFATTAL, David
    • TAN, MichaelWANG, Shih-YuanSTEWART, DuncanFATTAL, David
    • H01S3/08H01S3/109
    • H01S5/1075B82Y20/00G02B6/12007H01S5/026H01S5/0424H01S5/1032H01S5/1042H01S5/34306
    • Various embodiments of the present invention are related to microresonator systems and to methods of fabricating the microresonator systems. In one embodiment, a microresonator system (200) comprises a substrate (206) having a top surface layer (204) and at least one waveguide (214,216) embedded in the substrate and positioned adjacent to the top surface layer of the substrate. The microresonator system also includes a microresonator (202,402) having a top layer (218), an intermediate layer (222), a bottom layer (220), a peripheral region, and a peripheral coating (224). The bottom layer (220) of the microresonator is attached to and in electrical communication with the top surface layer (204) of the substrate. The microresonator is positioned so that at least a portion of the peripheral region is located above the at least one waveguide (214, 216). The peripheral coating (224) covers at least a portion of the peripheral surface and has a relatively lower index of refraction than the top, intermediate, and bottom layers of the microresonator.
    • 本发明的各种实施例涉及微谐振器系统和制造微谐振器系统的方法。 在一个实施例中,微谐振器系统(200)包括具有顶表面层(204)的衬底(206)和嵌入衬底中的至少一个波导(214,216),并且邻近衬底的顶表面层定位。 微谐振器系统还包括具有顶层(218),中间层(222),底层(220),周边区域和外围涂层(224)的微谐振器(202,402)。 微谐振器的底层(220)附着到衬底的顶表面层(204)并且与衬底的顶表面层(204)电连通。 微谐振器被定位成使得周边区域的至少一部分位于至少一个波导(214,216)之上。 周边涂层(224)覆盖周边表面的至少一部分并且具有比微谐振器的顶层,中间层和底层更低的折射率。
    • 4. 发明申请
    • MISALIGNMENT TOLERANT FREE SPACE OPTICAL TRANSCEIVER
    • 缺陷免费空间光收发器
    • WO2008156765A1
    • 2008-12-24
    • PCT/US2008/007553
    • 2008-06-16
    • HEWLETT-PACKARD DEVELOPMENT COMPANY, L. P.TAN, MichaelFATTAL, DavidMORRIS, Terrel
    • TAN, MichaelFATTAL, DavidMORRIS, Terrel
    • G02B6/42
    • H04B10/803
    • In accordance with an aspect of the invention, a system has a transmitter and a receiver, where the transmitter includes a beam source (210) and an optical element (220). The beam source (210) produces a beam (212) that respresents information , and the optical element (220) alters the beam (212) so that the beam (222) has a uniform intensity over a cross-sectional area. The receiver is separated from the transmiiter by free space through which the beam (222) propagates and includes as active area positioned to receive a portion of the beam (222) that the receiver converts into a received signal. To accommodate possible misalignment, the cross-sectional area of the beam (222) is larger than the active area by an amount that accommodates a range of misalignment of the receiver with the transmitter.
    • 根据本发明的一个方面,系统具有发射器和接收器,其中发射器包括光束源(210)和光学元件(220)。 光束源(210)产生重现信息的光束(212),并且光学元件(220)改变光束(212),使得光束(222)在横截面积上具有均匀的强度。 接收机通过自由空间与发射机分开,波束(222)通过自由空间传播,并且包括作为接收波束(222)的一部分的有源区域,接收机转换成接收信号。 为了适应可能的未对准,光束(222)的横截面面积大于有效区域,其量适应接收器与发射器的未对准范围。
    • 5. 发明申请
    • SYSTEM AND METHODS FOR ROUTING OPTICAL SIGNALS
    • 用于路由光信号的系统和方法
    • WO2009017768A1
    • 2009-02-05
    • PCT/US2008/009223
    • 2008-07-30
    • HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P.TAN, MichaelWANG, Shih-Yuan
    • TAN, MichaelWANG, Shih-Yuan
    • G02B6/26
    • G02B6/125G02B6/43
    • A system and methods for routing optical signals are disclosed. The system includes a first large core hollow waveguide (205) having a reflective coating (213) covering an interior of the waveguide and configured to guide a substantially collimated multi-mode coherent light beam (208). A second large core hollow waveguide (208) with an interior reflective coating is coupled to the first waveguide with a coupling device (210). The coupling device is configured to redirect at least a portion of the coherent light beam from the first to the second waveguides through an optical path that is sufficiently short that a beam walk-off of the coherent light through the coupling device is less than half a width of the first large core hollow waveguide.
    • 公开了用于路由光信号的系统和方法。 该系统包括第一大芯空心波导(205),该第一大芯空心波导(205)具有覆盖波导内部的反射涂层(213),并被配置为引导基本准直的多模相干光束(208)。 具有内部反射涂层的第二大芯空心波导(208)通过耦合装置(210)耦合到第一波导。 耦合装置被配置为通过足够短的光路将来自第一至第二波导的相干光束的至少一部分重定向,使得通过耦合装置的相干光的光束偏移小于半 第一大芯空心波导的宽度。
    • 9. 发明申请
    • FLEXIBLE OPTICAL INTERCONNECT
    • 柔性光学互连
    • WO2009120218A1
    • 2009-10-01
    • PCT/US2008/058769
    • 2008-03-28
    • HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P.ROSENBERG, PaulTAN, MichaelMATHAI, Sagi
    • ROSENBERG, PaulTAN, MichaelMATHAI, Sagi
    • G02B6/42
    • G02B6/43G02B6/0096Y10T156/10Y10T156/1064
    • A flexible optical interconnect and method of forming the interconnect is disclosed. The optical interconnect includes a waveguide base formed from a flexible dielectric material. A three-sided channel is formed in the flexible material. Each side of the channel is coated with a reflective metallic coating. A cover piece is formed from the flexible material and coated with a reflective metallic coating on an underside. The cover piece is coupled to the waveguide base to form a flexible optical bus having at least one hollow metallized waveguide. The hollow metallized waveguide is configured to carry an optical signal. A transverse slot is formed in the cover piece and the waveguide base to form an aperture bisecting the hollow metallized waveguide to enable the optical signal to be detected and/or redirected.
    • 公开了一种灵活的光学互连和形成互连的方法。 光学互连包括由柔性电介质材料形成的波导基体。 在柔性材料中形成三面通道。 通道的每一侧涂有反射金属涂层。 盖件由柔性材料形成,并在下侧涂覆有反射金属涂层。 覆盖件耦合到波导基底以形成具有至少一个中空金属化波导的柔性光学总线。 中空金属化波导被配置为承载光信号。 横向槽形成在覆盖件和波导基座中,以形成将中空金属化波导平分的孔,以使得能够检测和/或重定向光信号。