会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Electromagnetic wave resonator and its fabrication process as well as electromagnetic wave generator
    • 电磁波谐振器及其制造工艺以及电磁波发生器
    • US08872503B2
    • 2014-10-28
    • US13581579
    • 2011-03-02
    • Hideki MiyazakiHiroshi MiyazakiHiroki Ebe
    • Hideki MiyazakiHiroshi MiyazakiHiroki Ebe
    • G01R19/00G02F1/21
    • G02F1/21G02F2202/30G02F2203/10
    • The main object of the invention is to provide an electromagnetic wave resonator making use of surface waves: an electromagnetic wave resonator structure capable of being achieved with existing technologies yet without much difficulty and applying voltage to a positive dielectric area, thereby overcoming a variety of problems arising from the fact that only thermal excitation is available.The contact structure of negative dielectric/positive dielectric/negative dielectric necessary for this type of electromagnetic wave resonator is provided on the surface of the negative dielectric material 1 just as the coaxial structure of the positive dielectric thin film 3 extending in the Y-axis direction and the negative dielectric material 2 received therein is cut in the axial direction. This makes sure both negative dielectric materials 1 and 2 with the positive dielectric thin film 3 sandwiched between them are electrically insulated so that voltage can be applied to the positive dielectric thin film 3, and ensures that an area provided in the negative dielectric material 1 to receive the positive dielectric thin film 3 has an aspect ratio D/P1 of about 1.9, a figure well achievable in the state of the art.
    • 本发明的主要目的在于提供一种利用表面波的电磁波谐振器:能够利用现有技术实现的电磁波谐振器结构,而且难以实现,并向正电介质区域施加电压,从而克服各种问题 这是因为只有热激发才能使用。 负电介质材料1的表面上设置这种电磁波谐振器所需负电介质/正电介质/负电介质的接触结构,正如正电介质薄膜3在Y轴方向上延伸的同轴结构 并且容纳在其中的负电介质材料2在轴向上被切割。 这确保了夹在其间的正电介质薄膜3的负电介质材料1和2被电绝缘,使得可以将电压施加到正电介质薄膜3,并且确保设置在负电介质材料1中的区域 接收正电介质薄膜3具有约1.9的纵横比D / P1,这在现有技术中可以实现。
    • 2. 发明申请
    • ELECTROMAGNETIC WAVE RESONATOR AND ITS FABRICATION PROCESS AS WELL AS ELECTROMAGNETIC WAVE GENERATOR
    • 电磁波谐振器及其制造工艺,如电磁波发生器
    • US20120326702A1
    • 2012-12-27
    • US13581579
    • 2011-03-02
    • Hideki MiyazakiHiroshi MiyazakiHiroki Ebe
    • Hideki MiyazakiHiroshi MiyazakiHiroki Ebe
    • H03H9/46G01R19/00H03H3/007H01J7/44
    • G02F1/21G02F2202/30G02F2203/10
    • The main object of the invention is to provide an electromagnetic wave resonator making use of surface waves: an electromagnetic wave resonator structure capable of being achieved with existing technologies yet without much difficulty and applying voltage to a positive dielectric area, thereby overcoming a variety of problems arising from the fact that only thermal excitation is available.The contact structure of negative dielectric/positive dielectric/negative dielectric necessary for this type of electromagnetic wave resonator is provided on the surface of the negative dielectric material 1 just as the coaxial structure of the positive dielectric thin film 3 extending in the Y-axis direction and the negative dielectric material 2 received therein is cut in the axial direction. This makes sure both negative dielectric materials 1 and 2 with the positive dielectric thin film 3 sandwiched between them are electrically insulated so that voltage can be applied to the positive dielectric thin film 3, and ensures that an area provided in the negative dielectric material 1 to receive the positive dielectric thin film 3 has an aspect ratio D/P1 of about 1.9, a figure well achievable in the state of the art.
    • 本发明的主要目的在于提供一种利用表面波的电磁波谐振器:能够利用现有技术实现的电磁波谐振器结构,而且难以实现,并向正电介质区域施加电压,从而克服各种问题 这是因为只有热激发才能使用。 负电介质材料1的表面上设置这种电磁波谐振器所需负电介质/正电介质/负电介质的接触结构,正如正电介质薄膜3在Y轴方向上延伸的同轴结构 并且容纳在其中的负电介质材料2在轴向上被切割。 这确保了夹在其间的正电介质薄膜3的负电介质材料1和2被电绝缘,使得可以将电压施加到正电介质薄膜3,并且确保设置在负电介质材料1至 接收正电介质薄膜3具有约1.9的纵横比D / P1,这在现有技术中可以实现。
    • 5. 发明授权
    • Electromagnetic wave resonator, method of manufacturing the same, and method of resonating electromagnetic wave
    • 电磁波谐振器及其制造方法以及谐振电磁波的方法
    • US08189980B2
    • 2012-05-29
    • US11885368
    • 2006-02-24
    • Hideki MiyazakiYoichi Kurokawa
    • Hideki MiyazakiYoichi Kurokawa
    • G02B6/10H01S3/00H01L21/00H01P7/10H01P11/00
    • B82Y20/00G02B6/1226Y10T29/49016
    • The present invention provides an electromagnetic wave resonator that is capable of showing surface wave resonance typically as outstanding plasmon resonance and can be manufactured industrially with excellent reproducibility and efficiency by combining currently available microprocessing technologies. The electromagnetic wave resonator of the present invention includes a first negative dielectric surface, a second negative dielectric surface and a positive dielectric thin film disposed between the first and the second negative dielectric surfaces. The positive dielectric thin film has an end face having an electromagnetic wave introduced therefrom. Intensity of the electromagnetic wave having a predetermined wavelength and being introduced from the end face is enhanced in the electromagnetic wave resonator due to resonance of a surface wave having an electric field component in a direction of film thickness of the positive dielectric thin film and without having a cut-off frequency.
    • 本发明提供一种电磁波谐振器,其能够通过表现出优异的等离子体共振的表面波谐振,并且可以通过组合当前可用的微处理技术在工业上以良好的再现性和效率制造。 本发明的电磁波谐振器包括第一负电介质表面,第二负电介质表面和设置在第一和第二负电介质表面之间的正电介质薄膜。 正电介质薄膜具有从其引入的电磁波的端面。 由于在正电介质薄膜的膜厚方向上具有电场分量的表面波的共振,电磁波谐振器中具有预定波长并从端面导入的电磁波的强度增强,并且没有 截止频率。
    • 10. 发明授权
    • Optical connector
    • 光连接器
    • US07841778B2
    • 2010-11-30
    • US12339838
    • 2008-12-19
    • Naoya NishimuraHideki Miyazaki
    • Naoya NishimuraHideki Miyazaki
    • G02B6/36
    • G02B6/3885G02B6/3839G02B6/3869
    • An optical connector 10 includes a ferrule 20 to secure the set of multiple optical fibers 100, a plug member 21 to hold the ferrule 20, and a spacer 22 having a pin 23 for guiding, the spacer being integrally fixed to the ferrule 20 by means of inserting the pin 23 into the ferrule 20 to be secured together with the ferrule within the plug member 21, wherein the ferrule 20 has at least one first positioning portion for example a recessed portion 51, 52, and the spacer 22 has at least one second positioning portion for example a projection 61, 62 which is fitted to a corresponding first positioning portion to position the ferrule to the spacer.
    • 光连接器10包括用于固定多组光纤100的套圈20,用于保持套圈20的插头构件21和具有用于引导的销23的间隔件22,该间隔件通过装置一体地固定在套圈20上 将销23插入套圈20中以与插头构件21中的套圈固定在一起,其中套圈20具有至少一个第一定位部分,例如凹部51,52,并且间隔件22具有至少一个 第二定位部分,例如,突出部61,62,其配合到对应的第一定位部分,以将套圈定位到间隔件。