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    • 4. 发明申请
    • MEDICAL WARMING SYSTEM WITH NANO-THICKNESS HEATING ELEMENT
    • 具有纳米厚度加热元件的医疗保暖系统
    • US20100023098A1
    • 2010-01-28
    • US12507059
    • 2009-07-21
    • Geng LiCho Yee Joey ChowChih Lin IEdward S. Yang
    • Geng LiCho Yee Joey ChowChih Lin IEdward S. Yang
    • A61F7/00
    • A61F7/007A61B2017/00221A61F2007/0071A61F2007/0095
    • A medical warming system includes a plurality of heating elements respectively adapted to be disposed closed to various parts of a plurality of patients' bodies, a first group of sensors disposed at the proximity of the heating elements and configured for measuring the temperatures of the heating elements, a second group of sensors adapted to be disposed at the various parts of the patients' bodies and configured for measuring the temperatures of the various parts of the patients' bodies, and a controller being in communication with the first group and the second group of sensors. The controller is configured for receiving temperature data from the sensors and controlling the temperature of each heating element accordingly. Each heating element includes a conductive layer made from a nano-thickness material.
    • 医疗加温系统包括多个加热元件,其分别适于被设置为关闭到多个患者身体的各个部分,第一组传感器设置在加热元件附近,并被配置为测量加热元件的温度 ,第二组传感器,其适于被布置在所述患者身体的各个部分处,并且被配置用于测量患者身体的各个部分的温度;以及控制器,其与所述第一组和所述第二组 传感器。 控制器被配置为从传感器接收温度数据并且相应地控制每个加热元件的温度。 每个加热元件包括由纳米厚度材料制成的导电层。
    • 5. 发明授权
    • Medical warming system with nano-thickness heating element
    • 具有纳米厚度加热元件的医疗保暖系统
    • US08403974B2
    • 2013-03-26
    • US12507059
    • 2009-07-21
    • Geng LiCho Yee Joey ChowChih Lin IEdward S. Yang
    • Geng LiCho Yee Joey ChowChih Lin IEdward S. Yang
    • A61F7/00H05B3/16H05B3/10
    • A61F7/007A61B2017/00221A61F2007/0071A61F2007/0095
    • A medical warming system includes a plurality of heating elements respectively adapted to be disposed closed to various parts of a plurality of patients' bodies, a first group of sensors disposed at the proximity of the heating elements and configured for measuring the temperatures of the heating elements, a second group of sensors adapted to be disposed at the various parts of the patients' bodies and configured for measuring the temperatures of the various parts of the patients' bodies, and a controller being in communication with the first group and the second group of sensors. The controller is configured for receiving temperature data from the sensors and controlling the temperature of each heating element accordingly. Each heating element includes a conductive layer made from a nano-thickness material.
    • 医疗加温系统包括多个加热元件,其分别适于被设置为关闭到多个患者身体的各个部分,第一组传感器设置在加热元件附近,并被配置为测量加热元件的温度 ,第二组传感器,其适于被布置在所述患者身体的各个部分处,并且被配置用于测量患者身体的各个部分的温度;以及控制器,其与所述第一组和所述第二组 传感器。 控制器被配置为从传感器接收温度数据并且相应地控制每个加热元件的温度。 每个加热元件包括由纳米厚度材料制成的导电层。
    • 8. 发明申请
    • Systems and Techniques for Providing Elasticity Graphs
    • 提供弹性图的系统和技术
    • US20100331690A1
    • 2010-12-30
    • US12495424
    • 2009-06-30
    • Geng LiYing ZhengEdward S. Yang
    • Geng LiYing ZhengEdward S. Yang
    • A61B8/00
    • A61B5/055A61B5/0051A61B8/00A61B8/485
    • An elastogram device comprises a driver controller including a wave generator, and an amplifier assembly receiving waves from the wave generator for driving an actuator, the amplifier assembly compatible with at least one pneumatic actuator, at least one hydraulic actuator, at least one piezoelectric actuator, and at least one electromechanical actuator, an elastogram processor receiving a wave image from an imaging source and generating an elastogram from the wave image, and a user input and output assembly including a display rendering the elastogram, a user interface providing a plurality of options for selection, the options including selectable parameters to control the wave generator and to generate the elastogram.
    • 弹性装置包括驱动器控制器,其包括波发生器,以及放大器组件,其接收来自波发生器的用于驱动致动器的波,所述放大器组件与至少一个气动致动器兼容,至少一个液压致动器,至少一个压电致动器, 以及至少一个机电致动器,弹性图形处理器,其从成像源接收波形图像并从波形图像生成弹性图形;以及用户输入和输出组件,其包括呈现弹性图形的显示器,提供多个选项的用户界面 选择,包括可选择的参数来控制波发生器并产生弹性图。
    • 9. 发明授权
    • Method of patterning superconducting films
    • 图案超导薄膜的方法
    • US5135908A
    • 1992-08-04
    • US391109
    • 1989-08-07
    • Edward S. YangQiyuan Y. Ma
    • Edward S. YangQiyuan Y. Ma
    • H01L39/24
    • H01L39/2464Y10S505/703Y10S505/706
    • In a method of patterning superconducting thin films such as YBaCuO, based on the inhibition of superconductivity by intermixing an impurity, such as silicon, with superconductor material, a thin film of silicon is formed on a magnesium oxide substrate and then patterned, by laser direct-writing for example, to correspond to a desired pattern of superconducting lines. Multilayered YBaCuO thin films are then deposited over the patterned silicon film and annealed using rapid thermal annealing at a temperature of 980.degree. C. maintained for a period in the range from 30 to 90 seconds. The rapid annealing results in intermixing of silicon and YBaCuO in regions of the film between the lines of the pattern which, in turn, causes these regions to become insulating, and at the same time causes the YBaCuO film over the line pattern to become superconducting. The principles of the method can be used to make superconducting interconnects as electrodes of semiconductor devices, and also to replace metal interconnects in semiconductor integrated circuits with superconducting interconnects.
    • 在诸如YBaCuO的图案化超导薄膜的方法中,基于通过将诸如硅的杂质与超导体材料混合来抑制超导性的方法,在氧化镁衬底上形成硅薄膜,然后通过激光直接 例如,为了对应于期望的超导线图案。 然后将多层YBaCuO薄膜沉积在图案化的硅膜上,并在980℃的温度下使用快速热退火进行退火,维持在30至90秒的范围内。 快速退火导致硅和YBaCuO在图案的线之间的膜的区域中的混合,这又导致这些区域变得绝缘,并且同时使YBaCuO膜超过线图案变得超导。 该方法的原理可用于制造超导互连作为半导体器件的电极,并且还用超导互连替代半导体集成电路中的金属互连。