摘要:
The method for fabricating a nitride semiconductor of the present invention includes the steps of: (1) growing a first semiconductor layer made of a first group III nitride over a substrate by supplying a first group III source and a group V source containing nitrogen; and (2) growing a second semiconductor layer made of a second group III nitride on the first semiconductor layer by supplying a second group III source and a group V source containing nitrogen. At least one of the steps (1) and (2) includes the step of supplying a p-type dopant over the substrate, and an area near the interface between the first semiconductor layer and the second semiconductor layer is grown so that the density of the p-type dopant locally increases.
摘要:
The method for fabricating a nitride semiconductor of the present invention includes the steps of: (1) growing a first semiconductor layer made of a first group III nitride over a substrate by supplying a first group III source and a group V source containing nitrogen; and (2) growing a second semiconductor layer made of a second group III nitride on the first semiconductor layer by supplying a second group III source and a group V source containing nitrogen. At least one of the steps (1) and (2) includes the step of supplying a p-type dopant over the substrate, and an area near the interface between the first semiconductor layer and the second semiconductor layer is grown so that the density of the p-type dopant locally increases.
摘要:
The method for fabricating a nitride semiconductor of the present invention includes the steps of: (1) growing a first semiconductor layer made of a first group III nitride over a substrate by supplying a first group III source and a group V source containing nitrogen; and (2) growing a second semiconductor layer made of a second group III nitride on the first semiconductor layer by supplying a second group III source and a group V source containing nitrogen. At least one of the steps (1) and (2) includes the step of supplying a p-type dopant over the substrate, and an area near the interface between the first semiconductor layer and the second semiconductor layer is grown so that the density of the p-type dopant locally increases.
摘要:
The method for fabricating a nitride semiconductor of the present invention includes the steps of: (1) growing a first semiconductor layer made of a first group III nitride over a substrate by supplying a first group III source and a group V source containing nitrogen; and (2) growing a second semiconductor layer made of a second group III nitride on the first semiconductor layer by supplying a second group III source and a group V source containing nitrogen. At least one of the steps (1) and (2) includes the step of supplying a p-type dopant over the substrate, and an area near the interface between the first semiconductor layer and the second semiconductor layer is grown so that the density of the p-type dopant locally increases.
摘要:
A nitride semiconductor laser device includes an n-type contact layer of n-type GaN and an n-type cladding layer of n-type Al0.35Ga0.65N formed on a substrate of sapphire. On the n-type cladding layer, a multiple quantum well active layer of Al0.2Ga0.8N/Al0.25Ga0.75N, a p-type leak barrier layer of p-type Al0.5Ga0.5N0.975P0.025 and a p-type cladding layer of p-type Al0.4Ga0.6N0.98P0.02 are successively formed. The p-type leak barrier layer has a wider energy gap than the n-type cladding layer, and the p-type leak barrier layer and the p-type cladding layer include phosphorus for making an acceptor level shallow with keeping a wide energy gap.
摘要:
The method of fabricating a nitride semiconductor of this invention includes the steps of forming, on a substrate, a first nitride semiconductor layer of AluGavInwN, wherein 0≦u, v, w≦1 and u+v+w=1; forming, in an upper portion of the first nitride semiconductor layer, plural convexes extending at intervals along a substrate surface direction; forming a mask film for covering bottoms of recesses formed between the convexes adjacent to each other; and growing, on the first nitride semiconductor layer, a second nitride semiconductor layer of AlxGayInzN, wherein 0≦x, y, z≦1 and x+y+z=1, by using, as a seed crystal, C planes corresponding to top faces of the convexes exposed from the mask film.
摘要翻译:本发明的氮化物半导体的制造方法包括以下步骤:在衬底上形成AlGaN的第一氮化物半导体层, / SUB,其中0≤u,v,w <= 1,u + v + w = 1; 在所述第一氮化物半导体层的上部形成沿着基板表面方向间隔地延伸的多个凸部; 形成用于覆盖形成在彼此相邻的凸起之间的凹部的底部的掩模膜; 并且在所述第一氮化物半导体层上生长Al 2 O 3的第二氮化物半导体层,其中0 <= x ,y,z <= 1和x + y + z = 1,通过使用对应于从掩模膜暴露的凸起的顶面的C面作为晶种。
摘要:
The method of fabricating a nitride semiconductor of this invention includes the steps of forming, on a substrate, a first nitride semiconductor layer of AluGavInwN, wherein 0≦u, v, w ≦1 and u+v+w=1; forming, in an upper portion of the first nitride semiconductor layer, plural convexes extending at intervals along a substrate surface direction; forming a mask film for covering bottoms of recesses formed between the convexes adjacent to each other; and growing, on the first nitride semiconductor layer, a second nitride semiconductor layer of AlxGayInzN, wherein 0≦x, y, z≦1 and x+y+z=1, by using, as a seed crystal, Cplanes corresponding to top faces of the convexes exposed from the mask film.
摘要翻译:制造本发明的氮化物半导体的方法包括以下步骤:在衬底上形成AluGavInwN的第一氮化物半导体层,其中0≤u,v,w <= 1,u + v + w = 1; 在所述第一氮化物半导体层的上部形成沿着基板表面方向间隔地延伸的多个凸部; 形成用于覆盖形成在彼此相邻的凸起之间的凹部的底部的掩模膜; 并且在第一氮化物半导体层上生长Al x Ga y In z N的第二氮化物半导体层,其中0≤x,y,z <= 1和x + y + z = 1,通过使用对应于 从掩模膜暴露的凸起的顶面。
摘要:
A GaN buffer layer and an Si-doped n-type GaN contact layer are formed in this order on a sapphire substrate. An n-type Al0.3Ga0.7N cladding layer, an n-type Al0.25Ga0.75N optical guide layer, a multi-quantum well active layer, in which Al0.2Ga0.8N well layers and Al0.25Ga0.75N barrier layers are alternately stacked, an Mg-doped p-type Al0.25Ga0.75N optical guide layer, a p-type Al0.4Ga0.6N0.98P0.02 cladding layer and a p-type GaN contact layer are stacked in this order on an active region on the upper surface of the n-type contact layer.
摘要:
Between a semiconductor laser diode and an optical disk, a collimator lens for collimating a laser beam output from the semiconductor laser diode, a liquid crystal optical shutter for attenuating the collimated beam having passed through the collimator lens, and a beam splitter for splitting reflected light from the optical disk are disposed. In addition, a collective lens for collecting the collimated beam obtained by the collimator lens on a data holding surface of the optical disk is further disposed.
摘要:
A method for depositing a semiconductor film on a wafer by making a source gas supplied flow almost horizontally to the surface of the wafer. When a process condition, e.g., the flow velocity or pressure of the source gas, should be changed, the source gas has its velocity and/or pressure changed so that the source gas is supplied at a substantially constant flow rate.