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    • 3. 发明申请
    • OPTICAL CAVITY SYSTEM HAVING AN ORTHOGONAL INPUT
    • 具有正交输入的光学系统
    • US20090014670A1
    • 2009-01-15
    • US11770648
    • 2007-06-28
    • Barrett E. ColeJames A. CoxJ. David Zook
    • Barrett E. ColeJames A. CoxJ. David Zook
    • G01N21/84G02B26/00G02B27/42
    • G01J3/42G01N21/03G01N21/0303G01N21/031G01N21/3504G01N21/39G01N2021/0378G01N2021/399
    • An optical system having a closed loop light path with a source for providing light in a direction parallel to the normal of an input to the light path. The light may be provided via a diffracting mechanism to the input. The system may be a cavity ring-down sensor or some other optical device. The light path may be formed in a laser gyroscope type cavity. A light source may have a beam aligned to a spot, indicator or mark near the input of the cavity. The location of the spot, indicator or mark may be determined in accordance with parameters of the diffracting mechanism and/or cavity. A fixture for holding the light source may be secured so that placement of the source in the fixture will automatically result in an aligned light source. Then the diffracting mechanism may be inserted to further complete fabrication of the optical system.
    • 一种具有闭环光路的光学系统,具有用于在与光路的输入的法线平行的方向上提供光的源。 光可以经由衍射机构提供给输入。 该系统可以是空腔下降传感器或一些其它光学装置。 光路可以形成在激光陀螺仪型腔中。 光源可以具有与空腔输入附近的光点,指示符或标记对准的光束。 点,指示符或标记的位置可以根据衍射机构和/或空腔的参数来确定。 用于保持光源的夹具可以被固定,使得源在夹具中的放置将自动导致对准的光源。 然后可以插入衍射机构以进一步完成光学系统的制造。
    • 4. 发明申请
    • APPARATUS AND METHOD FOR THERMAL MANAGEMENT USING VAPOR CHAMBER
    • 用于使用蒸气室进行热管理的装置和方法
    • US20110030925A1
    • 2011-02-10
    • US12909669
    • 2010-10-21
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • F28D15/04
    • F28D15/046F28D15/0233H01L23/427H01L2924/0002H01L2924/00
    • An apparatus includes a plurality of islands each carrying multiple cantilevers. The apparatus also includes a fluidic network having a plurality of channels separating the islands. The channels are configured to provide fluid to the islands, and the fluid at least partially fills spaces between the cantilevers and the islands. Heat from the islands vaporizes the fluid filling the spaces between the cantilevers and the islands to transfer the heat away from the islands while driving the cantilevers into oscillation. The apparatus may also include a casing configured to surround the islands and the fluidic network to create a vapor chamber, where the vapor chamber is configured to retain the vaporized fluid. The islands and the fluidic network could be formed in a single substrate, or the islands could be separate and attached together by a binder located within the channels of the fluidic network.
    • 一种装置包括多个岛,每个岛承载多个悬臂。 该装置还包括具有分离岛的多个通道的流体网络。 通道被配置成向岛提供流体,并且流体至少部分地填充悬臂和岛之间的空间。 来自岛屿的热量使填充悬臂和岛屿之间的空间的流体蒸发,以将散热物从岛屿转移,同时驱动悬臂进入振荡。 该装置还可以包括被配置成围绕岛和流体网络以形成蒸汽室的壳体,其中蒸气室被配置为保持蒸发的流体。 岛和流体网络可以形成在单个基底中,或者岛可以分开并通过位于流体网络的通道内的粘合剂附着在一起。
    • 5. 发明授权
    • Growth technique for silicon-on-ceramic
    • 硅陶瓷生长技术
    • US4252861A
    • 1981-02-24
    • US79844
    • 1979-09-28
    • J. Don HeapsJ. David Zook
    • J. Don HeapsJ. David Zook
    • H01L31/04C04B41/50C04B41/85C30B15/00C30B29/64H01L21/208H01L31/18B05D1/18H01L31/00
    • C04B41/009C04B41/50C04B41/85C30B15/00C30B15/007C30B29/605H01L31/182Y02E10/546Y02P70/521
    • The present invention is an improvement to the method of growing silicon films on a substrate by bringing the substrate in contact with molten silicon. The improved growth technique may be classified as an asymmetric mode of growth of silicon on the substrate and is characterized by the substrate being maintained at a higher temperature than the solidification of silicon in the area of the substrate where the silicon layer growth is taking place, that is in the area of the liquid-solid interface. The higher temperature of the substrate causes the liquid-solid interface to be tilted to be nearly parallel to the substrate surface but inclined at a reentrant angle, so that the leading edge of the crystallization front is away from the substrate. This provides several advantages including increased growth speed, a nonhomogeneous doping of the silicon layer, that is an impurity concentration gradient and results in a high-low junction at the back surface and gives the back surface field effect.
    • 本发明是通过使衬底与熔融硅接触而在衬底上生长硅膜的方法的改进。 改进的生长技术可以被分类为在衬底上的硅的不对称生长模式,其特征在于衬底被保持在比在硅层生长发生的衬底的区域中的硅的固化更高的温度, 即在液固界面的区域。 基板的较高温度使得液 - 固界面倾斜成几乎平行于基板表面,但以折入角倾斜,使得结晶前沿的前缘远离基板。 这提供了几个优点,包括增加生长速度,硅层的非均匀掺杂,即杂质浓度梯度,并导致后表面的高低接合并给出背面场效应。
    • 6. 发明授权
    • Gas pulse generator for baseline drift correction and related system and method
    • 气体脉冲发生器,用于基线漂移校正及相关系统及方法
    • US08241919B2
    • 2012-08-14
    • US12260007
    • 2008-10-28
    • Adam Dewey McBradyJ. David ZookAlex GuMichael L. Rhodes
    • Adam Dewey McBradyJ. David ZookAlex GuMichael L. Rhodes
    • G01N33/00
    • G01N33/0011G01N2030/122G01N2030/623Y10T436/25Y10T436/25375Y10T436/255
    • A method includes acquiring a chemical sample and modulating the chemical sample at a frequency greater than a drift frequency of a sensor. The method also includes determining at least one of a presence and a concentration of the analyte within the modulated chemical sample using the sensor. Modulating the chemical sample could include alternately absorbing at least some of the analyte into a sorbent material and releasing at least some of the analyte from the sorbent material. Modulating the chemical sample could also include heating the sorbent material, absorbing part of the analyte into the sorbent material, and passing a remaining portion of the analyte into the sensor. Modulating the chemical sample could further include stopping the heating of the sorbent material, releasing the part of the analyte from the sorbent material, and passing the sample with the released part of the analyte into the sensor.
    • 一种方法包括获取化学样品并以大于传感器的漂移频率的频率调制化学样品。 该方法还包括使用传感器确定调制的化学样品中的分析物的存在和浓度中的至少一种。 调制化学样品可以包括交替地将至少一些分析物吸收到吸附材料中并从吸附剂材料中释放至少一些分析物。 调制化学样品还可以包括加热吸附剂材料,将分析物的一部分吸收到吸附剂材料中,并将分析物的剩余部分传递到传感器中。 调制化学样品可进一步包括停止吸附剂材料的加热,将分析物的一部分从吸附剂材料中释放出来,并将样品与分析物的释放部分一起传递到传感器中。
    • 7. 发明申请
    • APPARATUS AND METHOD FOR THERMAL MANAGEMENT USING VAPOR CHAMBER
    • 用于使用蒸气室进行热管理的装置和方法
    • US20090020271A1
    • 2009-01-22
    • US12169793
    • 2008-07-09
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • F28D15/00
    • F28D15/046F28D15/0233H01L23/427H01L2924/0002H01L2924/00
    • An apparatus includes a plurality of islands each carrying multiple cantilevers. The apparatus also includes a fluidic network having a plurality of channels separating the islands. The channels are configured to provide fluid to the islands, and the fluid at least partially fills spaces between the cantilevers and the islands. Heat from the islands vaporizes the fluid filling the spaces between the cantilevers and the islands to transfer the heat away from the islands while driving the cantilevers into oscillation. The apparatus may also include a casing configured to surround the islands and the fluidic network to create a vapor chamber, where the vapor chamber is configured to retain the vaporized fluid. The islands and the fluidic network could be formed in a single substrate, or the islands could be separate and attached together by a binder located within the channels of the fluidic network.
    • 一种装置包括多个岛,每个岛承载多个悬臂。 该装置还包括具有分离岛的多个通道的流体网络。 通道被配置成向岛提供流体,并且流体至少部分地填充悬臂和岛之间的空间。 来自岛屿的热量使填充悬臂和岛屿之间的空间的流体蒸发,以将散热物从岛屿转移,同时驱动悬臂进入振荡。 该装置还可以包括被配置成围绕岛和流体网络以形成蒸汽室的壳体,其中蒸气室被配置为保持蒸发的流体。 岛和流体网络可以形成在单个基底中,或者岛可以分开并通过位于流体网络的通道内的粘合剂附着在一起。
    • 10. 发明授权
    • Apparatus and method for thermal management using vapor chamber
    • 使用蒸气室进行热管理的设备和方法
    • US08335083B2
    • 2012-12-18
    • US12909669
    • 2010-10-21
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • Wei YangSteven J. EickhoffChunbo ZhangAlex GuJ. David Zook
    • H05K7/20H01L23/34H01L23/367F28D15/00
    • F28D15/046F28D15/0233H01L23/427H01L2924/0002H01L2924/00
    • An apparatus includes a plurality of islands each carrying multiple cantilevers. The apparatus also includes a fluidic network having a plurality of channels separating the islands. The channels are configured to provide fluid to the islands, and the fluid at least partially fills spaces between the cantilevers and the islands. Heat from the islands vaporizes the fluid filling the spaces between the cantilevers and the islands to transfer the heat away from the islands while driving the cantilevers into oscillation. The apparatus may also include a casing configured to surround the islands and the fluidic network to create a vapor chamber, where the vapor chamber is configured to retain the vaporized fluid. The islands and the fluidic network could be formed in a single substrate, or the islands could be separate and attached together by a binder located within the channels of the fluidic network.
    • 一种装置包括多个岛,每个岛承载多个悬臂。 该装置还包括具有分离岛的多个通道的流体网络。 通道被配置成向岛提供流体,并且流体至少部分地填充悬臂和岛之间的空间。 来自岛屿的热量使填充悬臂和岛屿之间的空间的流体蒸发,以将散热物从岛屿转移,同时驱动悬臂进入振荡。 该装置还可以包括被配置成围绕岛和流体网络以形成蒸汽室的壳体,其中蒸气室被配置为保持蒸发的流体。 岛和流体网络可以形成在单个基底中,或者岛可以分开并通过位于流体网络的通道内的粘合剂附着在一起。