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    • 1. 发明授权
    • Plasma oscillation switching device
    • 等离子体振荡开关装置
    • US06953954B2
    • 2005-10-11
    • US10745567
    • 2003-12-29
    • Shigeo YoshiiNobuyuki OtsukaKoichi MizunoAsamira SuzukiToshiya Yokogawa
    • Shigeo YoshiiNobuyuki OtsukaKoichi MizunoAsamira SuzukiToshiya Yokogawa
    • H01L29/812H01L21/338H01L29/20H01L29/778H01L29/80H01L29/43
    • H01L29/1029H01L29/2003H01L29/7785
    • A plasma oscillation switching device of the present invention comprises semiconductor substrate 101; first barrier layer 103 that is composed of a III-V compound semiconductor and formed on the substrate; channel layer 104 that is composed of a III-V compound semiconductor and formed on the first barrier layer; second barrier layer 105 that is composed of a III-V compound semiconductor and formed on the channel layer; source electrode 107, gate electrode 109 and drain electrode 108 provided on the second barrier layer, wherein the first barrier layer includes n-type diffusion layer 103a, the second barrier layer includes p-type diffusion layer 105a, the band gap of the channel layer is smaller than the band gaps of the first and the second barrier layers, two-dimensional electron gas EG is accumulated at the conduction band at the boundary between the first barrier layer and the channel layer, two-dimensional hole gas HG is accumulated at the valence band at the boundary between the second barrier layer and the channel layer, and these electrodes are formed on the barrier layer through the insulating layer 106.
    • 本发明的等离子体振荡切换装置包括半导体基板101, 第一阻挡层103,其由III-V族化合物半导体构成并形成在基板上; 沟道层104,其由III-V族化合物半导体形成并形成在第一阻挡层上; 第二阻挡层105,其由III-V族化合物半导体形成并形成在沟道层上; 源极电极107,栅电极109和漏电极108,其中第一阻挡层包括n型扩散层103a,第二阻挡层包括p型扩散层105a,第二势垒层包括p型扩散层105a, 通道层比第一和第二阻挡层的带隙小,二维电子气体EG在第一阻挡层和沟道层之间的边界处的导带处累积,二维空穴气体HG被积聚 在第二阻挡层和沟道层之间的边界处的价带处,并且这些电极通过绝缘层106形成在阻挡层上。
    • 3. 发明申请
    • Semiconductor device and fabrication method thereof
    • 半导体器件及其制造方法
    • US20050067615A1
    • 2005-03-31
    • US10962492
    • 2004-10-13
    • Shigeo YoshiiNobuyuki OtsukaKoichi MizunoAsamira Suzuki
    • Shigeo YoshiiNobuyuki OtsukaKoichi MizunoAsamira Suzuki
    • H01L29/68H01L29/06H01L29/08H01L29/12H01L29/737H01L31/0328
    • B82Y10/00H01L29/0817H01L29/127H01L29/7371
    • The present invention relates to a semiconductor device comprising a substrate (101); a semiconductor multi-layered structure formed on the substrate (101); the semiconductor multi-layered structure comprising an emitter layer (102), a base layer (105), and a collector layer (107), each composed of a group III-V n-type compound semiconductor and layered in this order; a quantum dot barrier layer (103) disposed between the emitter layer (102) and the base layer (105); a collector electrode (110), a base electrode (111) and an emitter electrode (112) connected to the collector layer (107), the base layer (105) and the emitter layer (102), respectively; the quantum dot barrier layer (103) comprising a plurality of quantum dots (103c); the quantum dots (103) being sandwiched between first and second barrier layers (103a, 103d) from the emitter layer side and the base layer side, respectively; each of the quantum dots (103c) having a convex portion that is convex to the base layer (105); a base layer (105) side interface (d1) in the second barrier layer (103d), and collector layer side and emitter layer side interfaces (d2, d3) in the base layer (105); the interfaces having curvatures (d12, d22, d23) that are convex to the collector layer (107) corresponding to the convex portions of the quantum dots (103c).
    • 本发明涉及一种包括衬底(101)的半导体器件; 形成在所述基板(101)上的半导体多层结构; 所述半导体多层结构包括由III-V族N型化合物半导体构成的发射极层(102),基极层(105)和集电极层(107),并且按顺序层叠; 设置在发射极层(102)和基极层(105)之间的量子点势垒层(103); 分别与集电极层(107)连接的集电极(110),基极(111)和发射极(112),基极层(105)和发射极层(102) 所述量子点势垒层(103)包括多个量子点(103c); 量子点(103)分别从发射极侧和基极侧夹在第一和第二阻挡层(103a,103d)之间; 每个量子点(103c)具有与基底层(105)凸起的凸部; 第二阻挡层(103d)中的基底层(105)侧界面(d1),以及基底层(105)中的集电极层侧和发射极层侧界面(d2,d3) 具有对应于量子点(103c)的凸部的与集电体层(107)凸起的曲率(d12,d22,d23)的界面。
    • 4. 发明授权
    • Semiconductor device
    • 半导体器件
    • US07323725B2
    • 2008-01-29
    • US10962492
    • 2004-10-13
    • Shigeo YoshiiNobuyuki OtsukaKoichi MizunoAsamira Suzuki
    • Shigeo YoshiiNobuyuki OtsukaKoichi MizunoAsamira Suzuki
    • H01L29/739H01L31/00
    • B82Y10/00H01L29/0817H01L29/127H01L29/7371
    • The present invention relates to a semiconductor device having a multi-layered structure comprising an emitter layer, a base layer, and a collector layer, each composed of a group III-V n-type compound semiconductor in this order; a quantum dot barrier layer disposed between the emitter layer and the base layer; a collector electrode, a base electrode and the emitter layer all connected to an emitter electrode; the quantum dot barrier layer having a plurality of quantum dots being sandwiched between first and second barrier layers from the emitter layer side and the base layer side, respectively and each having a portion that is convex to the base layer; a base layer side interface in the second barrier layer, and collector layer side and emitter layer side interfaces in the base layer having curvatures that are convex to the collector layer corresponding to the convex portions of the quantum dots.
    • 本发明涉及一种具有多层结构的半导体器件,该多层结构包括依次由III-V族n型化合物半导体构成的发射极层,基极层和集电极层; 设置在发射极层和基极层之间的量子点势垒层; 集电极,基极和发射极层全部连接到发射极; 所述量子点势垒层分别具有从所述发射极层侧和所述基极侧侧夹在第一和第二阻挡层之间的多个量子点,并且各自具有与所述基极层相对的部分。 第二阻挡层中的基底层侧界面,基底层中的集电极层侧发射极侧接合具有对应于量子点的凸部的集电极层的曲率的曲率。
    • 7. 发明授权
    • Semiconductor light emitting device and method of fabricating the same
    • 半导体发光器件及其制造方法
    • US07009216B2
    • 2006-03-07
    • US10718581
    • 2003-11-24
    • Nobuyuki OtsukaShigeo YoshiiToshiya Yokogawa
    • Nobuyuki OtsukaShigeo YoshiiToshiya Yokogawa
    • H01L33/00H01S3/19
    • H01S5/187H01S5/028H01S5/105H01S5/124H01S5/2201H01S5/42
    • A semiconductor light emitting device of the present invention comprises a n-type InP substrate (1), and a stripe structure (10) formed in the stripe shape on the n-type InP substrate (1) and comprised of a n-type InP lower cladding layer (3), an active layer (4) having a resonator in a direction parallel to the n-type InP substrate (1), and a p-type InP upper cladding layer (5). The stripe structure (10) has a photonic crystal structure (2) with concave portions 9 arranged in rectangular lattice shape, and the direction in which the concave portions (9) of the photonic crystal structure (2) are arranged corresponds with a resonator direction. A stripe-shaped upper electrode (6) is formed on the stripe structure (10) to extend in the resonator direction. The semiconductor light emitting device of the present invention so structured is configured to radiate light in the direction perpendicular to the n-type InP substrate (1).
    • 本发明的半导体发光器件包括n型InP衬底(1)和在n型InP衬底(1)上形成为条形的条形结构(10),并且由n型InP衬底 下包层(3),在与n型InP衬底(1)平行的方向上具有谐振器的有源层(4)和p型InP上覆层(5)。 条状结构(10)具有光子晶体结构(2),其具有矩形格子状的凹部9,并且配置有光子晶体结构(2)的凹部(9)的方向与谐振器方向 。 条状上电极(6)形成在条状结构(10)上以沿谐振器方向延伸。 如此构造的本发明的半导体发光器件被配置为沿垂直于n型InP衬底(1)的方向辐射光。