Patent application number | Description | Published |
20090008659 | NITRIDE SEMICONDUCTOR STACKED STRUCTURE AND SEMICONDUCTOR OPTICAL DEVICE, AND METHODS FOR MANUFACTURING THE SAME - A nitride semiconductor stacked structure having good working efficiency includes a p-type nitride semiconductor layer of low resistance, which is formed from an organometallic compound, compounds including Group V elements, including ammonia and a hydrazine derivative, and a p-type impurity material on a substrate. The p-type nitride layer has a carbon concentration not higher than 1×10 | 01-08-2009 |
20090236589 | NITRIDE SEMICONDUCTOR LAMINATED STRUCTURE AND OPTICAL SEMICONDUCTOR DEVICE, AND METHODS FOR PRODUCING THE SAME - A nitride semiconductor laminated structure comprises: a substrate; a first p-type nitride semiconductor layer formed using an organometallic compound as a Group III element source material, a p-type impurity source material and ammonia as a Group V element source material, with the hydrogen concentration in the first p-type nitride semiconductor layer being 1×10 | 09-24-2009 |
20100289056 | SEMICONDUCTOR LIGHT-EMITTING DEVICES - A semiconductor laser device comprises an n-type cladding layer, a p-type cladding layer, and an active layer which is sandwiched between the n-type cladding layer and the p-type cladding layer. The p-type cladding layer contains magnesium as a dopant impurity. Further, an n-type diffusion blocking layer of a nitride compound semiconductor material located between the active layer and the p-type cladding layer and is In | 11-18-2010 |
20110312161 | METHOD FOR MANUFACTURING SILICON CARBIDE SEMICONDUCTOR DEVICE - A film of an epitaxial layer that allows the reduction in both the height of a bunching step and crystal defects caused by a failure in migration of reactive species on a terrace is formed on a SiC semiconductor substrate having an off angle of 5 degrees or less. A film of a first-layer epitaxial layer is formed on and in contact with a surface of the SiC semiconductor substrate having an off angle of 5 degrees or less. Subsequently, the temperature in a reactor is lowered. A second-layer epitaxial layer is caused to epitaxially grow on and in contact with a surface of the first-layer epitaxial layer. In the above-described manner, the epitaxial layer is structured with two layers, and the growth temperature for the second epitaxial layer is set lower than the growth temperature for the first epitaxial layer. | 12-22-2011 |
20130099253 | EPITAXIAL WAFER AND SEMICONDUCTOR DEVICE - A semiconductor device that can suppress deterioration in crystal quality caused by a lattice mismatch between a substrate and an epitaxial layer and that also can ensure a voltage sustaining performance, and a wafer for forming the semiconductor device. An epitaxial wafer of silicon carbide (SiC), which is used for manufacturing a semiconductor device, includes a low resistance substrate and an epitaxial layer provided thereon. The epitaxial layer is doped with the same dopant as a dopant doped into the substrate, and has a laminated structure including a low concentration layer and an ultrathin high concentration layer. A doping concentration in the low concentration layer is lower than that in the silicon carbide substrate. A doping concentration in the ultrathin high concentration layer is equal to that in the silicon carbide substrate. | 04-25-2013 |
20130126906 | SILICON CARBIDE EPITAXIAL WAFER AND MANUFACTURING METHOD THEREFOR, SILICON CARBIDE BULK SUBSTRATE FOR EPITAXIAL GROWTH AND MANUFACTURING METHOD THEREFOR AND HEAT TREATMENT APPARATUS - A method is provided in order to manufacture a silicon carbide epitaxial wafer whose surface flatness is very good and has a very low density of carrot defects and triangular defects arising after epitaxial growth. The silicon carbide epitaxial wafer is manufactured by a first step of annealing a silicon carbide bulk substrate that is tilted less than 5 degrees from <0001> face, in a reducing gas atmosphere at a first temperature T | 05-23-2013 |
20140295136 | SINGLE-CRYSTAL 4H-SiC SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a single-crystal 4H-SiC substrate includes: preparing a flat 4H-SiC bulk single-crystal substrate; and epitaxially growing a first single-crystal 4H-SiC layer having recesses on the 4H-SiC bulk single-crystal substrate, wherein the first single-crystal 4H-SiC layer has a thickness of X (μm), the recesses have a diameter Y (μm) no smaller than 0.2*X (μm) and no larger than 2*X (μm), and a depth of Z (nm) no smaller than (0.95*X (μm) +0.5 (nm)) and no larger than 10*X (μm). | 10-02-2014 |
20150267320 | METHOD FOR MANUFACTURING SILICON CARBIDE SEMICONDUCTOR DEVICE - A method for manufacturing a silicon carbide semiconductor device includes: preparing a silicon carbide single crystal substrate having a flatness with an average roughness of 0.2 nm or less; gas-etching a surface of the silicon carbide single crystal substrate under an atmosphere of a reducing gas; and forming a silicon carbide layer on the gas-etched surface of the silicon carbide single crystal substrate, wherein an etching rate of the gas etching is made in a range of 0.5 μm/hour or faster to 2.0 μm/hour or slower. | 09-24-2015 |