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    • 1. 发明申请
    • SEMICONDUCTOR LASER DEVICE AND MANUFACTURING METHOD THEREOF
    • 半导体激光器件及其制造方法
    • US20120099614A1
    • 2012-04-26
    • US13275653
    • 2011-10-18
    • Tomohiro YAMAZAKIAkiyoshi KUDOKouji MAKITA
    • Tomohiro YAMAZAKIAkiyoshi KUDOKouji MAKITA
    • H01S5/026
    • H01S5/22B82Y20/00H01S5/0425H01S5/2205H01S5/3201H01S5/34333
    • A semiconductor laser device of the present invention includes: a substrate; a cladding layer of a first conductivity type formed above one of surfaces of the substrate; an active layer formed above the cladding layer of the first conductivity type; a cladding layer of a second conductivity type formed above the active layer, and having a ridge and a planar portion; a dielectric film formed on a lower portion of a side surface of the ridge and on the planar portion; a first electrode formed on an other one of the surfaces of the substrate; a second electrode formed above the ridge; a third electrode formed over the second electrode and the dielectric film to cover the ridge and the planar portion; and a cavity provided between the third electrode and at least a part of the side surface of the ridge.
    • 本发明的半导体激光装置包括:基板; 形成在所述基板的一个表面上方的第一导电类型的覆层; 形成在第一导电类型的包覆层上方的有源层; 形成在有源层上方的具有第二导电类型的包覆层,并具有脊和平面部分; 电介质膜,形成在所述脊的侧面的下部并且在所述平面部上; 形成在所述基板的另一个表面上的第一电极; 在脊上形成的第二电极; 形成在所述第二电极和所述电介质膜上以覆盖所述脊和所述平面部分的第三电极; 以及设置在第三电极和脊的侧表面的至少一部分之间的空腔。
    • 2. 发明申请
    • SEMICONDUCTOR LASER DEVICE AND METHOD OF MANUFACTURING THE DEVICE
    • 半导体激光器件及其制造方法
    • US20110142089A1
    • 2011-06-16
    • US12917211
    • 2010-11-01
    • Akiyoshi KUDO
    • Akiyoshi KUDO
    • H01S5/22H01S5/323H01L21/306
    • H01S5/0425B82Y20/00H01S5/0014H01S5/0202H01S5/0601H01S5/22H01S5/2214H01S5/3211H01S5/34333H01S2301/02
    • A first semiconductor layer, an active layer, a second semiconductor layer, and a contact layer are sequentially stacked on a substrate. A ridge portion extending between both facets of a resonator is provided in the second semiconductor layer and the contact layer. A current confining layer is formed to be in contact with the ridge portion. The current confining layer has an opening on an upper surface of the ridge portion. A first electrode in contact with the contact layer is formed in the opening. A second electrode is provided on the first electrode. A non-current injection portion in contact with the contact layer is provided on the upper surface of the ridge portion near the resonator facet. The current confining layer and the non-current injection portion are formed of the same dielectric film. The second electrode is spaced apart from an upper surface region of the non-current injection portion.
    • 第一半导体层,有源层,第二半导体层和接触层依次层叠在基板上。 在第二半导体层和接触层中设置在谐振器的两个面之间延伸的脊部。 电流限制层形成为与脊部接触。 电流限制层在脊部的上表面上具有开口。 在开口中形成与接触层接触的第一电极。 第二电极设置在第一电极上。 与接触层接触的非电流注入部分设置在谐振器面附近的脊部的上表面上。 电流限制层和非电流注入部分由相同的电介质膜形成。 第二电极与非电流注入部分的上表面区域间隔开。
    • 3. 发明申请
    • SEMICONDUCTOR LIGHT EMITTING DEVICE AND METHOD FOR MANUFACTURING THE SAME
    • 半导体发光器件及其制造方法
    • US20100046566A1
    • 2010-02-25
    • US12474834
    • 2009-05-29
    • Akiyoshi KUDO
    • Akiyoshi KUDO
    • H01S5/22H01L21/00
    • H01S5/22B82Y20/00H01S5/34333H01S2301/18
    • A semiconductor light emitting device includes at least a first cladding layer of a first conductive type, an active layer, a second cladding layer of a second conductivity type, and a contact layer of the second conductivity type stacked in this order on a substrate, and further includes a ridge portion including the second cladding layer and the contact layer. On the second cladding layer, are formed a dielectric film which covers the ridge portion and has an opening selectively exposing a top of the ridge portion, and an electrode in contact with a top surface and a side surface of the contact layer exposed from the dielectric film. The dielectric film includes a no-current injection region which covers an end of the ridge portion to block current injection to the active layer, and the no-current injection region of the dielectric film is in contact with the contact layer.
    • 半导体发光器件至少包括第一导电类型的第一覆盖层,有源层,第二导电类型的第二覆层以及依次堆叠在衬底上的第二导电类型的接触层,以及 还包括包括第二包覆层和接触层的脊部。 在第二包覆层上形成有覆盖脊部并且具有选择性地暴露脊部的顶部的开口的电介质膜和与从电介质露出的接触层的顶面和侧面接触的电极 电影。 电介质膜包括覆盖脊部的端部以阻挡向有源层的电流注入的无电流注入区域,并且电介质膜的无电流注入区域与接触层接触。
    • 4. 发明授权
    • GaAs-based semiconductor field-effect transistor
    • GaAs基半导体场效应晶体管
    • US06653667B2
    • 2003-11-25
    • US10186614
    • 2002-07-02
    • Akiyoshi Kudo
    • Akiyoshi Kudo
    • H01L310328
    • H01L29/8128
    • A GaAs-based semiconductor field-effect transistor in which electrons flowing from a source electrode to a drain electrode are controlled by a signal supplied to a gate electrode. The transistor includes an active layer made of a GaAs-based semiconductor material. A source electrode and a drain electrode are formed on the active layer. A gate electrode is formed on the active layer between the source electrode and the drain electrode. The thickness of an oxide layer of the GaAs-based semiconductor material on the active layer is approximately equal to the lattice constant of the GaAs-based semiconductor material. The thickness of the oxide layer is preferably about 4 through 6 Å, and, more preferably, about 5 Å.
    • 其中从源电极向漏电极流动的电子通过提供给栅电极的信号来控制的GaAs基半导体场效应晶体管。 晶体管包括由GaAs基半导体材料制成的有源层。 源电极和漏电极形成在有源层上。 在源电极和漏电极之间的有源层上形成栅电极。 有源层上的GaAs基半导体材料的氧化物层的厚度近似等于GaAs基半导体材料的晶格常数。 氧化物层的厚度优选为约4至6埃,更优选为约5埃。
    • 7. 发明授权
    • Method of fabricating thin film piezoelectric device
    • 制造薄膜压电器件的方法
    • US5801069A
    • 1998-09-01
    • US594769
    • 1996-01-31
    • Kenichi HaradaTakeshi KuragakiOsamu IshiharaKazuhiko SatoAkiyoshi Kudo
    • Kenichi HaradaTakeshi KuragakiOsamu IshiharaKazuhiko SatoAkiyoshi Kudo
    • C30B33/10H01L21/00H01L21/302H01L21/3065H01L29/84H01L41/08H01L41/187H01L41/22H03H9/17
    • H03H3/02H03H9/173H03H9/174H03H2003/021H03H2003/023
    • A method of fabricating a thin film piezoelectric device includes preparing a semiconductor substrate having a surface; forming an etch stopping layer having an etching rate on the surface of the semiconductor substrate; forming a first semiconductor layer having an etching rate higher than the etching rate of the etch stopping layer on the etch stopping layer; forming a first electrode on a region of the first semiconductor layer; forming a piezoelectric film on the first electrode; forming a second electrode on the piezoelectric film; and etching a portion of the first semiconductor layer where the first electrode, the piezoelectric film, and the second electrode overlap, from the surface of the first semiconductor layer, selectively with respect to the etch stopping layer, thereby forming a cavity in the first semiconductor layer. Even when a compound semiconductor is employed as the substrate, the etching forming a cavity is stopped at the etch stopping layer in the direction perpendicular to the surface of the first semiconductor layer so that a cavity having a uniform depth is produced with high controllability.
    • 制造薄膜压电器件的方法包括制备具有表面的半导体衬底; 在所述半导体衬底的表面上形成具有蚀刻速率的蚀刻停止层; 形成蚀刻速率高于蚀刻停止层上的蚀刻停止层的蚀刻速率的第一半导体层; 在所述第一半导体层的区域上形成第一电极; 在所述第一电极上形成压电膜; 在所述压电膜上形成第二电极; 并且相对于蚀刻停止层选择性地从第一半导体层的表面蚀刻第一电极,压电膜和第二电极重叠的第一半导体层的一部分,从而在第一半导体中形成空腔 层。 即使当使用化合物半导体作为衬底时,形成空腔的蚀刻在垂直于第一半导体层的表面的方向上在蚀刻停止层处停止,从而产生具有高可控性的均匀深度的空腔。
    • 8. 发明授权
    • High electron mobility transistor including periodic heterojunction
interface
    • 高电子迁移率晶体管包括周期性异质结界面
    • US5530272A
    • 1996-06-25
    • US329519
    • 1994-10-26
    • Akiyoshi KudoKazuo Hayashi
    • Akiyoshi KudoKazuo Hayashi
    • H01L29/812H01L21/335H01L21/338H01L29/06H01L29/778H01L31/0328H01L31/0336H01L31/072H01L31/109
    • B82Y10/00H01L29/66469H01L29/7783
    • A compound semiconductor device includes a carrier supply layer supplying free charge carriers and having high dopant impurity concentration regions with a prescribed width, disposed in stripe shapes along a main current flow direction, parallel to each other, and spaced at an interval, and a carrier channel layer to which free charge carriers are supplied from the carrier supply layer including an electron channel having a high free carrier density at portions corresponding to respective high dopant impurity concentration regions of the carrier supply layer in the vicinity of a heterojunction interface. The heterojunction interface formed by the carrier channel layer and the carrier supply layer has a periodic undulating shape with convex portions and valley portions in stripe shapes extending parallel to the main current flow direction. A pseudo one-dimensional electron channel is formed in the vicinity of the high dopant impurity concentration region of the carrier supply layer whereby electron mobility is increased. The regions other than the high dopant impurity concentration regions of the carrier supply layer have a low dopant impurity concentration whereby the charge carrier quantity and output per unit chip area are increased, thereby increasing power output without increasing chip area.
    • 化合物半导体器件包括载体供给层,其供给自由电荷载体,并且具有规定宽度的高掺杂杂质浓度区域,沿主电流流动方向以条状形状彼此平行地设置并间隔开,并且载体 从载体供给层向载流子供给层供给包含自由载流子浓度高的电子通道的沟道层,在与异质结界面附近的载流子供给层的各个高掺杂剂杂质浓度区域对应的部分。 由载流子通道层和载流子供给层形成的异质结界面具有周期性起伏的形状,具有平行于主流动方向延伸的条状的凸部和谷部。 在载流子供给层的高掺杂剂杂质浓度区域附近形成伪一维电子通道,由此增加电子迁移率。 载流子供给层的高掺杂剂杂质浓度区域以外的区域具有低掺杂剂杂质浓度,由此每单位芯片面积的电荷载体量和输出增加,从而增加功率输出而不增加芯片面积。