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    • 3. 发明申请
    • METHOD OF DETECTING RELATIVE POSITION OF EXPOSURE MASK AND OBJECT TO BE EXPOSED, ALIGNMENT METHOD, AND EXPOSURE METHOD USING THE SAME
    • 检测曝光掩模的相对位置和要曝光的对象的方法,使用其的对准方法和曝光方法
    • WO2004099879A2
    • 2004-11-18
    • PCT/JP2004006696
    • 2004-05-12
    • CANON KKYAMAGUCHI TAKAKOKURODA RYO
    • YAMAGUCHI TAKAKOKURODA RYO
    • G03F1/22G03F7/00G03F7/20G03F9/00H01L21/027
    • G03F7/7035G03F1/22G03F1/42G03F7/2039G03F9/7038
    • An alignment method for an exposure mask and an object to be exposed, wherein exposure is carried out while the exposure mask having a light blocking film formed at a membrane portion thereof is closely contacted to the object to be exposed and light from a light source is projected to the object to be exposed, through the exposure mask, and wherein alignment of the exposure mask and the object to be exposed is carried out prior to the exposure, the method comprising the steps of preparing an exposure mask having a light blocking film provided on a base material constituting the membrane portion and having a structure for performing position detection, flexing the membrane portion and detecting, by use of the structure, a relative position of the exposure mask and the object to be exposed, in a state in which the exposure mask is contacted to the object to be exposed, and aligning the exposure mask and the object to be exposed, with each other, on the basis of a result of the position detection.
    • 一种用于曝光掩模和待曝光物体的对准方法,其中在其膜部分形成有遮光膜的曝光掩模与待曝光的物体紧密接触并且来自光源的光是 通过曝光掩模投影到待曝光的物体上,并且其中曝光前曝光掩模和待曝光对象的对准在曝光之前进行,该方法包括以下步骤:制备具有遮光膜的曝光掩模 在构成膜部的基材上,具有进行位置检测的结构,弯曲膜部,并且通过使用该结构,在曝光掩模与被曝光物的相对位置之间,在 曝光掩模与要曝光的物体接触,并且基于位置的结果将曝光掩模和待曝光的对象彼此对准 检测。
    • 4. 发明申请
    • OPTICAL TOMOGRAPH
    • 光学TOMOGRAPH
    • WO2009139486A1
    • 2009-11-19
    • PCT/JP2009/059107
    • 2009-05-12
    • CANON KABUSHIKI KAISHAFURUSAWA, KentaroMIZUTANI, NatsuhikoKURODA, Ryo
    • FURUSAWA, KentaroMIZUTANI, NatsuhikoKURODA, Ryo
    • G01B9/02
    • G01B9/02014G01B9/02004G01B9/02069G01B9/02091
    • An optical tomography imaging a tomogram by using a coherent light by a backscattering light of a measured object and a reflected light of a reference mirror, which has supercontinuum light sources, an optical system having group velocity dispersion connected to the supercontinuum light source, an optical detection element detecting a coherent light by a backscattering light of the measured object and a reflected light of the reference mirror, a timing detection element detecting a timing of each wavelength component in an output light from the optical system having the group velocity dispersion, and a unit sampling a signal from the optical detector by using a timing signal from the timing detection element with a signal from the supercontinuum light source as a trigger, and detecting an optical tomogram signal imaging a tomogram, thereby acquiring an optical tomogram at a higher speed than a conventional SS-OCT.
    • 光学断层摄影通过使用具有超连续光源的测量对象的反向散射光和参考反射镜的反射光使用相干光来成像断层图像,具有连接到超连续光源的组速度色散的光学系统,光学 检测元件通过测量对象的后向散射光和参考反射镜的反射光来检测相干光,定时检测元件,检测来自具有组速度色散的光学系统的输出光中的每个波长分量的定时,以及 通过使用来自定时检测元件的来自超连续光源的信号的定时信号作为触发来对来自光学检测器的信号进行采样,并且检测成像断层图像的光学层析图像信号,从而以更高的速度获取光学层析图像 常规的SS-OCT。
    • 9. 发明申请
    • A BODY ASSEMBLY OF A MOTOR VEHICLE
    • 电动车身体组件
    • WO2009039319A1
    • 2009-03-26
    • PCT/US2008/076914
    • 2008-09-19
    • E. I. DU PONT DE NEMOURS AND COMPANYKURODA, Ryo
    • KURODA, Ryo
    • B60R13/08
    • B60R13/0815
    • A body assembly of a motor vehicle comprises an outer body structure of a motor vehicle, an interior member disposed between the outer body structure and a passenger compartment at a predetermined distance from the outer body structure, and an inner member comprising a moisture vapor permeable metalized composite sheet comprising a sheet layer having first and second outer surfaces and at least one multi-layer coating on said first outer surface of the sheet layer, the multi-layer coating comprising a first metal coating layer having a thickness between about 15 nanometers and 200 nanometers adjacent the first outer surface of the sheet layer and an outer organic coating layer of a composition containing a metal selected from the group consisting of organic polymers, organic oligomers and combinations thereof, having a thickness between about 0.2 micrometer and 2.5 micrometers deposited on the metal layer. The metalized composite sheet is disposed within the predetermined distance between the outer body structure and the inner member such that the first metal coating layer faces the outer body structure and the distance between the metalized composite sheet and the outer body structure is at least 6 mm. The body assembly of the invention improves the thermal efficiency of automobiles by reflecting thermal radiation in and out through the roof and/or door panel modules, without increasing the risk of moisture condensations within the modules.
    • 机动车辆的车身组件包括机动车辆的外部主体结构,设置在外部本体结构与位于外部本体结构之间预定距离处的乘客室之间的内部构件,以及内部构件,其包括水蒸汽可透过金属化 复合片材,其包括具有第一和第二外表面的片层和在所述片层的所述第一外表面上的至少一层多层涂层,所述多层涂层包括厚度在约15纳米至200埃之间的第一金属涂层 邻近片层的第一外表面的纳米级和包含选自下组中的选自有机聚合物,有机低聚物及其组合的金属的组合物的外部有机涂层,其沉积在第二外表面上的约0.2微米至2.5微米 金属层。 金属化复合片材设置在外体结构体和内部构件之间的预定距离内,使得第一金属涂层面向外体结构,并且金属化复合片材与外体结构体之间的距离为至少6mm。 本发明的主体组件通过将热辐射反射入和穿过屋顶和/或门板模块来改善汽车的热效率,而不增加模块内的湿气冷凝的风险。