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    • 1. 发明授权
    • Substrate structure and manufacturing method
    • 基板结构及制造方法
    • US08224143B2
    • 2012-07-17
    • US12713184
    • 2010-02-26
    • Shin MasudaKazunori ShiotaAtsushi Seki
    • Shin MasudaKazunori ShiotaAtsushi Seki
    • G02B6/10B32B9/04B05D5/06H01L21/00
    • G02F1/0018G02F1/0316G02F1/035G02F2001/212Y10T428/325
    • Provided is a substrate structure and a manufacturing method thereof, the substrate structure including a base substrate of single crystal; and a rhombohedral ferroelectric thin film exhibiting a spontaneous ferroelectric polarization and of a perovskite structure, the ferroelectric thin film being formed on a surface of the base substrate. The substrate structure may further include an optical waveguide formed on the ferroelectric thin film; and an electric field applying section that applies, to the optical waveguide, an electric field parallel to a surface of the base substrate. The electric field applying section generates the electric field so that the electric field direction of the electric field applied to the optical waveguide is parallel to a direction of the spontaneous ferroelectric polarization of the ferroelectric thin film.
    • 提供一种基板结构及其制造方法,该基板结构包括单晶基底; 以及表现出自发铁电极化和钙钛矿结构的菱形铁电薄膜,所述铁电薄膜形成在所述基底基板的表面上。 基板结构还可以包括形成在铁电薄膜上的光波导; 以及电场施加部,其向光波导施加平行于基底的表面的电场。 电场施加部产生电场,使得施加到光波导的电场的电场方向平行于铁电薄膜的自发铁电极化方向。
    • 2. 发明授权
    • Optical device and optical modulation apparatus
    • 光学装置和光调制装置
    • US08559777B2
    • 2013-10-15
    • US13278154
    • 2011-10-20
    • Hideo HaraShin MasudaAtsushi Seki
    • Hideo HaraShin MasudaAtsushi Seki
    • G02F1/035
    • G02F1/2255G02F1/0121G02F1/0316
    • Provided is an optical modulator that modulates input light with a high frequency and low half-wave voltage. An optical device comprises a substrate; a dielectric film that is formed on the substrate and includes a first optical waveguide and a second optical waveguide that run parallel to each other; an insulating film formed on the dielectric film; a coplanar line that is formed on the insulating film and includes a signal line arranged between the first optical waveguide and the second optical waveguide, a first ground line arranged in a first region, and a second ground line arranged in a second region; and auxiliary electrodes that are arranged in the first region and the second region, are formed in contact with the dielectric film or within the insulating film, and apply bias voltages to the first optical waveguide and the second optical waveguide.
    • 提供一种调制具有高频和低半波电压的输入光的光调制器。 光学装置包括基板; 形成在基板上并且包括彼此平行延伸的第一光波导和第二光波导的电介质膜; 形成在绝缘膜上的绝缘膜; 形成在所述绝缘膜上并且包括布置在所述第一光波导和所述第二光波导之间的信号线,布置在第一区域中的第一接地线和布置在第二区域中的第二接地线的共面线; 并且布置在第一区域和第二区域中的辅助电极形成为与电介质膜或绝缘膜接触,并向第一光波导和第二光波导施加偏置电压。
    • 3. 发明授权
    • Plasma addressed electro-optical display
    • 等离子体寻址电光显示
    • US5923389A
    • 1999-07-13
    • US986524
    • 1997-12-08
    • Atsushi Seki
    • Atsushi Seki
    • G02F1/1333G02F1/133G09F9/35H01J17/18H01J17/48H01J17/49G02F1/1345G02G3/28
    • G02F1/13334H01J17/485
    • A plasma addressed electro-optical display which is capable of formation of amalgams in the terminal electrodes to elongate the lifetime of the plasma addressed electro-optical display. The plasma addressed electro-optical display according to the present invention includes a first substrate having a plurality of discharge electrodes formed thereon; a dielectric layer disposed apart from the first substrate for a predetermined distance; a plasma cell formed by sealing the peripheries of the first substrate and the dielectric layer with a sealing portion; and a second substrate disposed opposite to the dielectric layer and having data electrodes intersecting the discharge electrodes on the surface thereof, wherein the plasma cell and the second substrate are stacked in such a manner that an electro-optical material layer is interposed between the plasma cell and the second substrate so that the plasma addressed electro-optical display is formed, the discharge electrodes are connected to terminal electrodes through connecting electric lines, and the terminal electrodes are drawn out to the outside of the plasma cell, and then connected to a drive circuit.
    • 等离子体寻址电光显示器,其能够在端子电极中形成汞齐以延长等离子体寻址的电光显示器的寿命。 根据本发明的等离子体寻址电光显示器包括:在其上形成有多个放电电极的第一基板; 电介质层,与所述第一基板隔开预定距离; 通过用密封部密封第一基板和电介质层的周边而形成的等离子体单元; 以及第二基板,与所述电介质层相对设置并且具有与其表面上的放电电极相交的数据电极,其中所述等离子体单元和所述第二基板以使得电光材料层插入在所述等离子体电池之间的方式 和第二基板,从而形成等离子体寻址的电光显示器,通过连接电线将放电电极连接到端电极,并且将端子电极拉出到等离子体单元的外部,然后连接到驱动器 电路。
    • 4. 发明授权
    • Method for manufacturing a plasma-addressed display device
    • 制造等离子体寻址显示装置的方法
    • US5772486A
    • 1998-06-30
    • US871134
    • 1997-06-06
    • Atsushi Seki
    • Atsushi Seki
    • G02F1/133H01J17/48H01J17/49H01J9/02
    • G02F1/13334H01J17/16H01J17/485
    • A plasma-addressed display device comprises a first substrate having a number of first electrodes arranged alternately in parallel on a main surface, a second substrate having a number of second electrodes orthogonal with respect to the first electrodes and arranged alternately in parallel, with the second electrodes facing the first electrodes, a dielectric sheet interposed between the first and second substrates, an electro-optical substance for maintaining a space between the dielectric sheet and the first substrate and a underlying layer formed between the second substrate and the second electrodes, so that warping of the glass substrate of the plasma cell side may be suppressed and substrate discharge within the plasma cell may be controlled.
    • 等离子体寻址的显示装置包括:第一基板,其具有在主表面上交替平行布置的多个第一电极;第二基板,具有与第一电极正交并与第二电极交替并列布置的第二电极; 面对第一电极的电极,介于第一和第二基板之间的电介质片,用于保持电介质片和第一衬底之间的空间的电光物质和形成在第二衬底和第二电极之间的下层,使得 可以抑制等离子体池侧的玻璃基板的翘曲,并且可以控制等离子体单元内的基板放电。
    • 5. 发明授权
    • Flat-panel type display and spacer
    • 平板式显示屏和隔板
    • US07642700B2
    • 2010-01-05
    • US11797696
    • 2007-05-07
    • Atsushi Seki
    • Atsushi Seki
    • H01J1/88H01J19/42H01J63/04
    • H01J29/88H01J29/864H01J31/127H01J2329/864H01J2329/8645H01J2329/865
    • A flat-panel type display is provided, in which a marginal portion of a cathode panel provided with a plurality of electron emission regions and a marginal portion of an anode panel provided with luminescent layers and an anode are bonded to each other, spacers are disposed between the cathode panel and the anode panel, and a space sandwiched between the cathode panel and the anode panel is maintained under vacuum. The spacer includes a substrate of spacer and an antistatic coating disposed on the side surface of the spacer material, wherein the antistatic coating is formed from germanium nitride containing no transition metal, the thickness of the antistatic coating is within the range of 2 nm to 20 nm, and the volume resistivity of the substrate of spacer is within the range of 5×106 Ω·m to 2×108 Ω·m.
    • 提供了一种平板型显示器,其中设置有多个电子发射区域的阴极面板的边缘部分和设置有发光层和阳极的阳极面板的边缘部分彼此接合,设置间隔件 在阴极面板和阳极面板之间,并且夹在阴极面板和阳极面板之间的空间保持真空。 间隔物包括间隔物的基材和设置在间隔材料的侧表面上的抗静电涂层,其中抗静电涂层由不含过渡金属的氮化锗形成,抗静电涂层的厚度在2nm至20nm的范围内 nm,并且间隔物的衬底的体积电阻率在5×10 6Ω·m〜2×10 8Ω·m的范围内。
    • 6. 发明授权
    • Optical fiber sensor and measuring apparatus using same
    • 光纤传感器和使用其的测量装置
    • US07389009B2
    • 2008-06-17
    • US10575718
    • 2004-10-15
    • Mitsuhiro IgaKazuhiro WatanabeAtsushi Seki
    • Mitsuhiro IgaKazuhiro WatanabeAtsushi Seki
    • G02B6/00
    • G01N21/431G01N21/552G01N21/7703
    • An optical fiber sensor enabling simpler detection of a state of an external environment and a measuring apparatus using the same are provided. At a front end of an optical fiber portion 20a for transmitting the light a hetero core having a different diameter from that of a core of the optical fiber portion 20a is melt bonded so as to form a tip type optical fiber sensor 9 having a sensor portion 4 comprised of the hetero core on its front end. An end of the optical fiber portion 20a side of this tip type optical fiber sensor 9 has a light source 1 connected to it. Returned light striking the optical fiber portion 20a from the light source 1 and subjected to interaction with a measurement medium MD at the sensor portion 4 is split by an optical fiber coupler 2 and received at a photodiode or spectrum analyzer 6, thereby an optical fiber sensor measuring apparatus 100 is constructed.
    • 提供了能够更简单地检测外部环境的状态的光纤传感器和使用其的测量装置。 在用于透射光的光纤部分20a的前端,将具有与光纤部分20a的芯的直径不同的直径的异质芯片熔融粘合,以形成具有 传感器部分4在其前端由异质核心构成。 光纤部分20的端部,该顶端型光纤传感器9的一侧具有与其连接的光源1。 从光源1照射到光纤部分20a上并与传感器部分4的测量介质MD相互作用的返回光被光纤耦合器2分开,并被接收在光电二极管或频谱分析仪6处,由此光纤 传感器测量装置100构成。
    • 7. 发明申请
    • Optical amplifier apparatus
    • 光放大器装置
    • US20070165298A1
    • 2007-07-19
    • US10567646
    • 2004-08-11
    • Atsushi Seki
    • Atsushi Seki
    • H01S3/00H04B10/12
    • H04B10/294H01S3/005H01S3/0064H01S3/06758H01S3/06766H01S3/0677H01S3/094003
    • An optical amplifier apparatus capable of dealing with different wavelength bands and capable of outputting an amplified light with reduced noise for any one of the wavelength bands. In a case of amplifying a light of C-band, terminals (51,52) of an optical switch (50) are connected to each other. An incident light is amplified by a first front-end optical fiber amplifier (12) and a first back-end optical fiber amplifier (18). The amplified light passes via the terminals (51,52) and through a back-end WDM coupler (36) and goes out of the optical amplifier apparatus (1). In a case of amplifying a light of L-band, terminals (51,54) of the optical switch (50) are connected to each other, while terminals (52,53) thereof are connected to each other. An incident light is amplified by the first front-end optical fiber amplifier (12) and first back-end optical fiber amplifier (18), passing via the terminals (51,54), thereafter being further amplified by a second front-end optical fiber amplifier (22) and a second back-end optical fiber amplifier (28). The thus amplified light then passes via the terminals (53,52) and through the back-end WDM coupler (36) and goes out of the optical amplifier apparatus (1).
    • 一种光放大器装置,能够处理不同的波长带,并且能够输出任何一个波段的噪声降低的放大的光。 在放大C波段的光的情况下,光开关(50)的端子(51,52)彼此连接。 入射光被第一前端光纤放大器(12)和第一后端光纤放大器(18)放大。 被放大的光经由端子(51,52)并通过后端WDM耦合器(36),并从光放大器装置(1)中出来。 在放大L波段的情况下,光开关(50)的端子(51,54)彼此连接,而端子(52,53)彼此连接。 入射光被第一前端光纤放大器(12)和第一后端光纤放大器(18)放大,经由端子(51,54)通过第二前端光学放大器 光纤放大器(22)和第二后端光纤放大器(28)。 这样放大的光然后经由端子(53,52)并通过后端WDM耦合器(36),并从光放大器装置(1)中出来。
    • 9. 发明授权
    • Optical amplifier apparatus
    • 光放大器装置
    • US07609437B2
    • 2009-10-27
    • US10567646
    • 2004-08-11
    • Atsushi Seki
    • Atsushi Seki
    • H04B10/17H04B10/12
    • H04B10/294H01S3/005H01S3/0064H01S3/06758H01S3/06766H01S3/0677H01S3/094003
    • An optical amplifier apparatus capable of dealing with different wavelength bands and capable of outputting an amplified light with reduced noise for any one of the wavelength bands. In a case of amplifying a light of C-band, terminals (51,52) of an optical switch (50) are connected to each other. An incident light is amplified by a first front-end optical fiber amplifier (12) and a first back-end optical fiber amplifier (18). The amplified light passes via the terminals (51,52) and through a back-end WDM coupler (36) and goes out of the optical amplifier apparatus (1). In a case of amplifying a light of L-band, terminals (51,54) of the optical switch (50) are connected to each other, while terminals (52,53) thereof are connected to each other. An incident light is amplified by the first front-end optical fiber amplifier (12) and first back-end optical fiber amplifier (18), passing via the terminals (51,54), thereafter being further amplified by a second front-end optical fiber amplifier (22) and a second back-end optical fiber amplifier (28). The thus amplified light then passes via the terminals (53,52) and through the back-end WDM coupler (36) and goes out of the optical amplifier apparatus (1).
    • 一种光放大器装置,能够处理不同的波长带并能够输出任何一个波长带的降噪噪声的放大的光。 在放大C波段的光的情况下,光开关(50)的端子(51,52)彼此连接。 入射光被第一前端光纤放大器(12)和第一后端光纤放大器(18)放大。 被放大的光经由端子(51,52)并通过后端WDM耦合器(36),并从光放大器装置(1)中出来。 在放大L波段的情况下,光开关(50)的端子(51,54)彼此连接,而端子(52,53)彼此连接。 入射光被第一前端光纤放大器(12)和第一后端光纤放大器(18)放大,经由端子(51,54)通过第二前端光学放大器 光纤放大器(22)和第二后端光纤放大器(28)。 这样放大的光然后经由端子(53,52)并通过后端WDM耦合器(36),并从光放大器装置(1)中出来。