Patent application number | Description | Published |
20080219910 | Single-Crystal GaN Substrate - Manufacture at lower cost of off-axis GaN single-crystal freestanding substrates having a crystal orientation that is displaced from (0001) instead of (0001) exact. With an off-axis (111) GaAs wafer as a starting substrate, GaN is vapor-deposited onto the starting substrate, which grows GaN crystal that is inclined at the same off-axis angle and in the same direction as is the starting substrate. Misoriented freestanding GaN substrates may be manufactured, utilizing a misoriented (111) GaAs baseplate as a starting substrate, by forming onto the starting substrate a mask having a plurality of apertures, depositing through the mask a GaN single-crystal layer, and then removing the starting substrate. The manufacture of GaN crystal having a misorientation of 0.1° to 25° is made possible. | 09-11-2008 |
20080296610 | SEMICONDUCTOR LIGHT-EMITTING ELEMENT AND SUBSTRATE USED IN FORMATION OF THE SAME - For a semiconductor laser, a stacked member comprising an active layer is formed on the surface of a GaN single-crystal substrate, a defect aggregation portion is formed on the rear face of the GaN single-crystal substrate, and an electrode is formed so as to be electrically connected to the defect aggregation portion on the rear face. The defect aggregation portion of this semiconductor laser has numerous crystal defects, and so the carrier concentration is high, and the electrical resistivity is lowered significantly. For this reason, in a semiconductor laser of this invention in which an electrode is formed on this defect aggregation portion, an Ohmic contact can easily be obtained between the GaN single-crystal substrate and the electrode, and by this means a lowered driving voltage is realized. | 12-04-2008 |
20080299694 | METHOD OF MANUFACTURING SEMICONDUCTOR LIGHT-EMITTING ELEMENT - In a semiconductor laser manufacturing method, a GaN single-crystal substrate is formed by slicing a GaN bulk crystal, grown on a c-plane, parallel to an a-plane which is perpendicular to the c-plane. In this substrate, crystal defects extending parallel to the c-axis direction do not readily exert an influence, and degradation of element characteristics due to crystal defects can be suppressed. Further, because the a-plane is a nonpolar plane, improved light emission efficiency and longer wavelengths can be achieved compared with the c-plane, which is a polar plane. Hence a semiconductor laser manufacturing method of this invention enables further improvement of the element characteristics of the semiconductor laser to be fabricated. | 12-04-2008 |
20090071394 | AlxInyGa1-x-yN MIXTURE CRYSTAL SUBSTRATE, METHOD OF GROWING AlxInyGa1-x-yN MIXTURE CRYSTAL SUBSTRATE AND METHOD OF PRODUCING AlxInyGa1-x-yN MIXTURE CRYSTAL SUBSTRATE - A low dislocation density Al | 03-19-2009 |
20090092166 | Nitride semiconductor light-emitting device - A nitride semiconductor light-emitting device wherein a substrate or nitride semiconductor layer has a defect concentration region and a low defect density region other than the defect concentration region. A portion including the defect concentration region of the nitride semiconductor layer or substrate has a trench region deeper than the low defect density region. Thus by digging the trench in the defect concentration region, the growth detection is uniformized, and the surface planarity is improved. The uniformity of the characteristic in the wafer surface leads to improvement of the yield. | 04-09-2009 |
20090212277 | GROUP-III NITRIDE LIGHT-EMITTING DEVICE AND METHOD FOR MANUFACTURING GROUP-III NITRIDE BASED SEMICONDUCTOR LIGHT-EMITTING DEVICE - A group-III nitride light-emitting device is provided. An active layer having a quantum well structure is grown on a basal plane of a gallium nitride based semiconductor region. The quantum well structure is formed in such a way as to have an emission peak wavelength of 410 nm or more. The thickness of a well layer is 4 nm or more, and 10 nm or less. The well layer is composed of In | 08-27-2009 |
20090263955 | GaN single crystal substrate and method of making the same - The method of making a GaN single crystal substrate comprises a mask layer forming step of forming on a GaAs substrate | 10-22-2009 |
20100009526 | FABRICATION METHOD AND FABRICATION APPARATUS OF GROUP III NITRIDE CRYSTAL SUBSTANCE - A fabrication method of a group III nitride crystal substance includes the steps of cleaning the interior of a reaction chamber by introducing HCl gas into the reaction chamber, and vapor deposition of a group III nitride crystal substance in the cleaned reaction chamber. A fabrication apparatus of a group III nitride crystal substance includes a configuration to introduce HCl gas into the reaction chamber, and a configuration to grow a group III nitride crystal substance by HVPE. Thus, a fabrication method of a group III nitride crystal substance including the method of effectively cleaning deposits adhering inside the reaction chamber during crystal growth, and a fabrication apparatus employed in the fabrication method are provided. | 01-14-2010 |
20100148174 | GaN Epitaxial Wafer and Semiconductor Devices, and Method of Manufacturing GaN Epitaxial Wafer and Semiconductor Devices - Affords GaN epitaxial wafers designed to improve production yields, as well as semiconductor devices utilizing such GaN epitaxial wafers, and methods of manufacturing such GaN epitaxial wafers and semiconductor devices. | 06-17-2010 |
20100150199 | Nitride semiconductor light-emitting device - A nitride semiconductor light-emitting device wherein a substrate or nitride semiconductor layer has a defect concentration region and a low defect density region other than the defect concentration region. A portion including the defect concentration region of the nitride semiconductor layer or substrate has a trench region deeper than the low defect density region. Thus by digging the trench in the defect concentration region, the growth detection is uniformized, and the surface planarity is improved. The uniformity of the characteristic in the wafer surface leads to improvement of the yield. | 06-17-2010 |
20110065265 | FABRICATION METHOD AND FABRICATION APPARATUS OF GROUP III NITRIDE CRYSTAL SUBSTANCE - A fabrication method of a group III nitride crystal substance includes the steps of cleaning the interior of a reaction chamber by introducing HCl gas into the reaction chamber, and vapor deposition of a group III nitride crystal substance in the cleaned reaction chamber. A fabrication apparatus of a group III nitride crystal substance includes a configuration to introduce HCl gas into the reaction chamber, and a configuration to grow a group III nitride crystal substance by HVPE. Thus, a fabrication method of a group III nitride crystal substance including the method of effectively cleaning deposits adhering inside the reaction chamber during crystal growth, and a fabrication apparatus employed in the fabrication method are provided. | 03-17-2011 |
20110163323 | GaN SINGLE CRYSTAL SUBSTRATE AND METHOD OF MAKING THE SAME - The method of making a GaN single crystal substrate comprises a mask layer forming step of forming on a GaAs substrate | 07-07-2011 |
20110201184 | OXYGEN DOPING METHOD TO GALLIUM NITRIDE SINGLE CRYSTAL SUBSTRATE - Oxygen can be doped into a gallium nitride crystal by preparing a non-C-plane gallium nitride seed crystal, supplying material gases including gallium, nitrogen and oxygen to the non-C-plane gallium nitride seed crystal, growing a non-C-plane gallium nitride crystal on the non-C-plane gallium nitride seed crystal and allowing oxygen to infiltrating via a non-C-plane surface to the growing gallium nitride crystal. Oxygen-doped {20-21}, {1-101}, {1-100}, {11-20} or {20-22} surface n-type gallium nitride crystals are obtained. | 08-18-2011 |
20110315998 | EPITAXIAL WAFER, METHOD FOR MANUFACTURING GALLIUM NITRIDE SEMICONDUCTOR DEVICE, GALLIUM NITRIDE SEMICONDUCTOR DEVICE AND GALLIUM OXIDE WAFER - A gallium nitride based semiconductor device is provided which includes a gallium nitride based semiconductor film with a flat c-plane surface provided on a gallium oxide wafer. A light emitting diode LED includes a gallium oxide support base | 12-29-2011 |
20120003770 | METHOD FOR FORMING EPITAXIAL WAFER AND METHOD FOR FABRICATING SEMICONDUCTOR DEVICE - A method for forming an epitaxial wafer is provided as one enabling growth of a gallium nitride based semiconductor with good crystal quality on a gallium oxide region. In step S | 01-05-2012 |
20130244406 | FABRICATION METHOD AND FABRICATION APPARATUS OF GROUP III NITRIDE CRYSTAL SUBSTANCE - A fabrication method of a group III nitride crystal substance includes the steps of cleaning the interior of a reaction chamber by introducing HCl gas into the reaction chamber, and vapor deposition of a group III nitride crystal substance in the cleaned reaction chamber. A fabrication apparatus of a group III nitride crystal substance includes a configuration to introduce HCl gas into the reaction chamber, and a configuration to grow a group III nitride crystal substance by HVPE. Thus, a fabrication method of a group III nitride crystal substance including the method of effectively cleaning deposits adhering inside the reaction chamber during crystal growth, and a fabrication apparatus employed in the fabrication method are provided. | 09-19-2013 |