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    NANOPARTICLE-STABILIZED IMMISCIBLE ALLOYS
    2.
    发明申请
    NANOPARTICLE-STABILIZED IMMISCIBLE ALLOYS 审中-公开
    纳米材料稳定的不合理合金

    公开(公告)号:US20160060730A1

    公开(公告)日:2016-03-03

    申请号:US13669636

    申请日:2012-11-06

    申请人: Xiaochun Li Lianyi Chen Jiaquan Xu

    发明人: Xiaochun Li Lianyi Chen Jiaquan Xu

    IPC分类号: C22C21/00 C22C1/02 C22C1/06

    CPC分类号: C22C21/003 B22F1/02 B32B15/016 C22C1/02 C22C1/026 C22C1/06 C22C1/1036 C22C21/00 C22C32/0047 C22C2001/1047

    摘要: Solid immiscible alloys and methods for making the solid immiscible alloys are provided. The microstructure of the immiscible alloys is characterized by a minority phase comprising a plurality of particles of an inorganic material dispersed in a majority phase comprising a continuous matrix of another inorganic material. The methods utilize nanoparticles to control both the collisional growth and the diffusional growth of the minority phase particles in the matrix during the formation of the alloy microstructure.

    摘要翻译: 提供了固体不混溶合金和制备固体不混溶合金的方法。 不混溶合金的显微组织的特征在于包含分散在包含另一种无机材料的连续基质的多数相中的多种无机材料颗粒的少数阶段。 该方法利用纳米颗粒来控制在形成合金微结构期间基体中少数相颗粒的碰撞生长和扩散生长。

    RETICLE DEFECT INSPECTION WITH MODEL-BASED THIN LINE APPROACHES
    4.
    发明申请
    RETICLE DEFECT INSPECTION WITH MODEL-BASED THIN LINE APPROACHES 有权
    基于模型的薄线方法的虚假检测

    公开(公告)号:US20110299759A1

    公开(公告)日:2011-12-08

    申请号:US12871821

    申请日:2010-08-30

    申请人: Ruifang Shi Xiaochun Li

    发明人: Ruifang Shi Xiaochun Li

    IPC分类号: G06T7/00

    CPC分类号: G03F1/84

    摘要: Provided are novel inspection methods and systems for inspecting photomasks to identify various defects using a model-based approach and information obtained from modeled images. Modeled or simulation images are generated directly from test or reference images. Some examples include aerial images that represent expected patterns projected by a lithography system on a substrate as well as photoresist images that represent expected resist patterns. Test images are first represented as a band limited mask pattern, which may include only linear terms for faster image processing. This pattern is then used to construct a modeled image, which in turn is used to construct a model-based feature map. This map serves as a base for inspecting the original test images to identify photomask defects and may include information that allows differentiating between various feature types based on their lithographic significance and other characteristics.

    摘要翻译: 提供了用于检查光掩模以使用基于模型的方法和从建模图像获得的信息来识别各种缺陷的新颖的检查方法和系统。 建模或模拟图像直接从测试或参考图像生成。 一些示例包括表示由基板上的光刻系统投影的预期图案的空间图像以及表示预期的抗蚀剂图案的光致抗蚀剂图像。 测试图像首先被表示为带限制掩模图案,其可以仅包括用于更快图像处理的线性项。 然后,该模式用于构建模型化图像,后者又用于构建基于模型的特征图。 该地图作为检查原始测试图像以识别光掩模缺陷的基础,并且可以包括允许基于它们的光刻重要性和其他特征来区分各种特征类型的信息。

    Systems and methods for sensing properties of a workpiece and embedding a photonic sensor in metal
    5.
    发明授权
    Systems and methods for sensing properties of a workpiece and embedding a photonic sensor in metal 有权
    用于感测工件性质并将光子传感器嵌入金属中的系统和方法

    公开(公告)号:US07840101B2

    公开(公告)日:2010-11-23

    申请号:US12160043

    申请日:2007-01-03

    申请人: Chee Wei Wong Rohit Chatterjee Xiaochun Li Xugang Zhang

    发明人: Chee Wei Wong Rohit Chatterjee Xiaochun Li Xugang Zhang

    IPC分类号: G02B6/00 G01N21/00

    CPC分类号: G02B6/12007 G01K11/00 G01L1/246 G02B6/1225 G02B6/29338

    摘要: Systems and methods for sensing properties of a workpiece and embedding a photonic sensor in metal are disclosed herein. In some embodiments, systems for sensing properties of a workpiece include an optical input, a photonic device, an optical detector, and a digital processing device. The optical input provides an optical signal at an output of the optical input. The photonic device is coupled to the workpiece and to the output of the optical input. The photonic device generates an output signal in response to the optical signal, wherein at least one of an intensity of the output signal and a wavelength of the output signal depends on at least one of thermal characteristics and mechanical characteristics of the workpiece. The optical detector receives the output signal from the photonic device and is configured to generate a corresponding electronic signal. The digital processing device is coupled to the optical detector and determines at least one of the thermal characteristics and mechanical the characteristics of the workpiece based on the electronic signal.

    摘要翻译: 本文公开了用于感测工件的性质并将光子传感器嵌入金属中的系统和方法。 在一些实施例中,用于感测工件属性的系统包括光输入,光子器件,光检测器和数字处理器件。 光输入在光输入的输出处提供光信号。 光子器件耦合到工件和光输入的输出。 光子器件响应于光信号产生输出信号,其中输出信号的强度和输出信号的波长中的至少一个取决于工件的热特性和机械特性中的至少一个。 光学检测器接收来自光子器件的输出信号,并被配置为产生相应的电子信号。 数字处理装置耦合到光学检测器,并且基于电子信号确定工件的热特性和机械特性中的至少一个。

    Method for embedding thin film sensor in a material
    8.
    发明授权
    Method for embedding thin film sensor in a material 有权
    将薄膜传感器嵌入材料的方法

    公开(公告)号:US09126271B2

    公开(公告)日:2015-09-08

    申请号:US12247035

    申请日:2008-10-07

    申请人: Xiaochun Li Arindom Datta Xudong Cheng

    发明人: Xiaochun Li Arindom Datta Xudong Cheng

    IPC分类号: B23B51/00 G01L5/00 B26D7/00 B26D1/00 B26D5/00 B26D7/27 B26F1/44

    CPC分类号: B23B51/00 B23B2226/125 B23B2226/69 B26D1/0006 B26D5/00 B26D7/00 B26D7/27 B26F1/44 G01L5/0061 Y10T29/49103 Y10T83/04 Y10T83/849 Y10T156/10

    摘要: An embedded sensor or other desired device is provided within a completed structure through a solid-state bonding process or through a dynamic bonding process. The embedded sensor or other desired device is provided on a substrate through any known or later-developed method. A cover is then bonded to the substrate using a solid-state bonding process or a dynamic bonding process. The solid-state bonding process may include providing heat and pressure to the substrate and the cover to bond the substrate and the cover together. The dynamic bonding process may include heating a bonding agent and distributing the heated bonding agent between the substrate and cover to bond the substrate and the cover together.

    摘要翻译: 嵌入式传感器或其他所需设备通过固态接合过程或通过动态接合工艺提供在完整结构内。 嵌入式传感器或其它所需设备通过任何已知或未来开发的方法提供在基板上。 然后使用固态键合工艺或动态粘合工艺将覆盖物粘合到基底上。 固态接合工艺可以包括向衬底和盖提供热和压力以将衬底和盖结合在一起。 动态粘合工艺可以包括加热粘合剂并将加热的粘合剂分配在基底和盖子之间,以将基底和盖子结合在一起。

    Sea Wave Power Generation Device
    9.
    发明申请
    Sea Wave Power Generation Device 有权
    海浪发电装置

    公开(公告)号:US20150176561A1

    公开(公告)日:2015-06-25

    申请号:US14370059

    申请日:2013-03-28

    申请人: Xiaochun Li

    发明人: Xiaochun Li

    IPC分类号: F03B13/18

    CPC分类号: F03B13/18 F03B13/186 Y02E10/38

    摘要: A sea wave power generation device includes: a motion bar, a platform, a platform-supporting upper upright post for supporting the platform, a platform-supporting lower upright post, a hydraulic lift post, a flywheel set for connecting power generation equipment, and a platform lift control device, wherein sea wave pushes floating ball to drive the motion bar to move upwards, a rack section of the motion bar drives a first flywheel on first side to rotate, which drives a generator to generate power through a spindle; wherein after the sea wave, the floating ball drives the motion bar to move downwards under action of gravity. The rack section of the motion bar drives a second flywheel on second side to rotate, which drives the generator to generate power through the spindle, in such a manner that continuous power generation is achieved.

    摘要翻译: 海浪发电装置包括:运动杆,平台,支撑平台的平台支撑上立柱,平台支撑下立柱,液压提升柱,用于连接发电设备的飞轮组,以及 平台升降控制装置,其中海浪推动浮球以驱动运动杆向上移动,运动条的齿条部分驱动第一侧的第一飞轮旋转,驱动发电机通过主轴产生动力; 其中在海浪之后,浮球驱动运动杆在重力作用下向下运动。 运动条的齿条部分驱动第二侧的第二个飞轮旋转,驱动发电机通过主轴产生动力,从而实现连续发电。