Abstract: Provided are semiconductor devices having improved surface morphology characteristics, and a method of fabricating the same. The semiconductor device includes: an r-plane sapphire substrate; an AlxGa(1-x)N(0?×<1) buffer layer epitaxially grown on the r-plane sapphire substrate to a thickness in the range of 100-20000 ? in a gas atmosphere containing nitrogen (N2) and at a temperature of 900-1100° C.; and a first a-plane GaN layer formed on the buffer layer.

Abstract: A method of manufacturing a nitride-based semiconductor laser diode that can minimize optical absorption on a cavity mirror plane and improve the surface roughness of the cavity mirror plane is provided. The method includes the steps of: forming on a (0001) GaN (gallium nitride) substrate having at least two masks spaced apart by a distance equal to a laser cavity length in stripes that extend along the <11-20> direction; growing an n-GaN layer on the GaN substrate between the masks so that two (1-100) edges of the n-GaN layer are thicker than the remaining regions thereof; sequentially stacking an n-clad layer, an active layer, and a p-clad layer on the n-GaN layer to form an edge-emitting laser cavity structure in which laser light generated in the active layer passes through a region of the n-clad layer aligned laterally with the active layer and is output; and etching a (1-100) plane of the laser cavity structure to form a cavity mirror plane.

Abstract: A ridge-waveguide semiconductor laser diode with an improved current injection structure is provided. The ridge-waveguide semiconductor laser diode includes: a substrate; a lower multi-semiconductor layer formed on the substrate; an active layer formed on the lower multi-semiconductor layer; an upper multi-semiconductor layer having a ridge portion and formed on the active layer; and an upper electrode formed on the upper multi-semiconductor layer, wherein the upper electrode covers at least one side surface of the ridge portion.

Abstract: A gallium nitride (GaN)-based compound semiconductor device having a structure improving a surface characteristic of a thin film growing on a substrate is provided. The GaN-based compound semiconductor device includes an AlxInyGa1-x-yN substrate (0?x?1, 0?y?1, and 0?x+y?1) whose surface inclines toward a predetermined direction at an off-angle of greater than 0° and less than 1° with respect to the (0001) plane, and a GaN-based compound semiconductor layer grown on the surface of the substrate.

Abstract: Provided is a light-emitting device and a method of manufacturing the same. The light-emitting device includes a substrate having at least one protruded portion with a curved surface in which a consistent defect density and uniform stress distribution can be obtained even when the growth of the semiconductor crystal layer and the forming of the light-emitting device are completed. In addition, the light-emitting device has a high the light extraction efficiency for extracting light generated at an electroluminescense layer externally.

Abstract: A semiconductor light emitting diode having a textured structure and a method of manufacturing the same are provided. The semiconductor light emitting diode includes a first semiconductor layer formed into a textured structure, an intermediate layer formed between the textured structures of the patterned first semiconductor layer, and a second semiconductor layer, an active layer, and a third semiconductor layer sequentially formed on the first semiconductor layer and the intermediate layer.

Abstract: Provided are a semiconductor device having a superlattice semiconductor layer and a method of fabricating the same. The semiconductor device includes a superlattice semiconductor layer in which first material layers and second material layers formed of different materials are alternately stacked. A plurality holes are formed in the first material layers and the second material layers forming a superlattice structure, and the holes are filled with materials of the adjacent material layers. The provided superlattice structure reduces a driving voltage by transferring charges through the holes in the first material layers and the second material layers while maintaining a predetermined optical confinement characteristic.

Abstract: Provided is a light-emitting device and a method of manufacturing the same. The light-emitting device includes a substrate having at least one protruded portion with a curved surface in which a consistent defect density and uniform stress distribution can be obtained even when the growth of the semiconductor crystal layer and the forming of the light-emitting device are completed. In addition, the light-emitting device has a high the light extraction efficiency for extracting light generated at an electroluminescense layer externally.

Abstract: Provided are a III-V group GaN-based compound semiconductor device and a method of manufacturing the same. The device includes an AlGaN diffusion blocking layer and an InGaN sacrificial layer interposed between an active layer having a multiple quantum well and a p-type GaN-based compound semiconductor layer.

Abstract: Provided are a semiconductor device having a superlattice semiconductor layer and a method of fabricating the same. The semiconductor device includes a superlattice semiconductor layer in which first material layers and second material layers formed of different materials are alternately stacked. A plurality holes are formed in the first material layers and the second material layers forming a superlattice structure, and the holes are filled with materials of the adjacent material layers. The provided superlattice structure reduces a driving voltage by transferring charges through the holes in the first material layers and the second material layers while maintaining a predetermined optical confinement characteristic.