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
    • 2. 发明授权
    • Mode-locked semiconductor laser device and driving method thereof
    • 锁模半导体激光器件及其驱动方法
    • US08442079B2
    • 2013-05-14
    • US13035540
    • 2011-02-25
    • Tomoyuki OkiMasaru KuramotoMasao IkedaTakao MiyajimaHideki WatanabeHiroyuki Yokoyama
    • Tomoyuki OkiMasaru KuramotoMasao IkedaTakao MiyajimaHideki WatanabeHiroyuki Yokoyama
    • H01S3/098
    • Provided is a driving method of a mode-locked semiconductor laser device comprising a laminated structure in which a first compound semiconductor layer, a third compound semiconductor layer having an emission region and a second compound semiconductor layer are successively laminated, a second electrode, and a first electrode. The laminated structure is formed on a compound semiconductor substrate having polarity, the third compound semiconductor layer includes a quantum well structure having a well layer and a barrier layer. The well layer has a depth of 1 nm or more and 10 nm or less. The barrier layer has an impurity doping density of 2×1018 cm−3 or more and 1×1020 cm−3 or less. An optical pulse is generated in the emission region by passing a current from the second electrode to the first electrode via the laminated structure.
    • 提供了一种锁模半导体激光器件的驱动方法,其包括层叠结构,其中第一化合物半导体层,具有发射区域的第三化合物半导体层和第二化合物半导体层被连续层压,第二电极和 第一电极。 层叠结构形成在具有极性的化合物半导体基板上,第三化合物半导体层包括具有阱层和阻挡层的量子阱结构。 阱层的深度为1nm以上且10nm以下。 势垒层的杂质掺杂密度为2×1018cm-3以上且1×1020cm-3以下。 通过将电流从第二电极通过层压结构传递到第一电极,在发射区域中产生光脉冲。
    • 7. 发明申请
    • Hemorrhoid ligation apparatus, ligation kit containing the apparatus and method for ligating hemorrhoid
    • 痔疮结扎装置,包含痔疮结扎装置及方法的连接试剂盒
    • US20090198255A1
    • 2009-08-06
    • US12071057
    • 2008-02-14
    • Masao Ikeda
    • Masao Ikeda
    • A61B17/00
    • A61B17/12013A61B50/20A61B50/30A61B2017/12018Y10T29/53657
    • [PROBLEM TO BE SOLVED] A hemorrhoid ligation apparatus that allows the operator to handle with a single hand to ligate a hemorrhoid, under minimized risk of committing improper operation, is to be provided.[MEANS FOR SOLVING] The hemorrhoid ligation apparatus (10) includes a main cylinder (12) to which an O-ring (50) for ligating the hemorrhoid is to be attached on an outer circumferential surface of a front end portion, a sub cylinder (14) air-tightly and slidably provided inside the main cylinder (12), so as to suck the hemorrhoid into inside the front end portion of the main cylinder (12) upon being drawn toward a rear end portion of the main cylinder (12), an operating fluid loaded inside the sub cylinder (14), and a plunger (16) air-tightly and slidably provided inside the sub cylinder (14), so as to pressurize the operating fluid upon being squeezed toward a front end portion of the sub cylinder (14), to thereby squeeze the O-ring (50) toward the front end portion of the main cylinder (12) with the pressurized operating fluid, thus detaching the O-ring (50) from the main cylinder (12).
    • [待解决的问题]提供了一种痔疮结扎装置,其能够在最小程度地进行不正当的操作的风险下使手术者用单手手术来结扎痔疮。 [解决方案]痔疮结扎装置(10)包括主缸(12),用于将痔疮结扎的O形环(50)安装在前端部的外周面上,副缸 (14)气密地滑动地设置在主气缸(12)的内部,以便在朝向主气缸(12)的后端部抽吸时将痔疮吸入主气缸(12)的前端部内 ),负载在子气缸(14)内的工作液体,以及气密地且可滑动地设置在子气缸(14)内部的柱塞(16),以便在朝向前述前端部分 从而通过加压工作流体将O形环(50)朝向主缸(12)的前端部挤压,从而将O形环(50)从主缸(12)分离 )。
    • 8. 发明授权
    • Nitride semiconductor wafer and method of processing nitride semiconductor wafer
    • 氮化物半导体晶片和氮化物半导体晶片的加工方法
    • US07535082B2
    • 2009-05-19
    • US11055599
    • 2005-02-11
    • Masahiro NakayamaNaoki MatsumotoKoshi TamamuraMasao Ikeda
    • Masahiro NakayamaNaoki MatsumotoKoshi TamamuraMasao Ikeda
    • H01L23/544
    • H01L21/02008B24B37/08H01L21/02024Y10S438/959
    • Nitride semiconductor wafers which are produced by epitaxially grown nitride films on a foreign undersubstrate in vapor phase have strong inner stress due to misfit between the nitride and the undersubstrate material. A GaN wafer which has made by piling GaN films upon a GaAs undersubstrate in vapor phase and eliminating the GaAs undersubstrate bends upward due to the inner stress owing to the misfit of lattice constants between GaN and GaAs. Ordinary one-surface polishing having the steps of gluing a wafer with a surface on a flat disc, bringing another surface in contact with a lower turntable, pressing the disc, rotating the disc, revolving the turntable and whetting the lower surface, cannot remedy the inherent distortion. The Distortion worsens morphology of epitaxial wafers, lowers yield of via-mask exposure and invites cracks on surfaces. Nitride crystals are rigid but fragile. Chemical/mechanical polishing has been requested in vain. Current GaN wafers have roughened bottom surfaces, which induce contamination of particles and fluctuation of thickness.
    • 由氮化物和下衬底材料之间的失配导致的,由外延生长的氮化物膜在气相中的外来下衬衬底产生的氮化物半导体晶片具有很强的内部应力。 通过在气相中在GaAs下衬底上堆叠GaN膜而消除GaAs下衬层而制成的GaN晶片由于内部应力而由于GaN和GaAs之间的晶格常数的失配而向上弯曲。 通常的单面抛光具有将晶片与平面盘上的表面胶合的步骤,使另一表面与下转台接触,按压盘,旋转盘,旋转转台并磨削下表面,不能补救 固有失真。 失真会加剧外延晶片的形态,降低通孔掩模曝光的产量,并引起表面裂纹。 氮化物晶体是刚性但脆弱的。 化学/机械抛光已被要求徒劳。 当前的GaN晶圆已经粗糙化了底面,这引起了颗粒的污染和厚度的波动。