Patent application number | Description | Published |
20080299748 | Group III-V Crystal - Favorable-quality III-V crystals are easily obtained at low cost without causing cracks, even when using a variety of substrates. The III-V crystals are obtained by manufacturing method characterized in including: a step of depositing a metal film ( | 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 |
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 |
20100090313 | III-V Compound Crystal and Semiconductor Electronic Circuit Element - Favorable-quality III-V crystals are easily obtained at low cost without causing cracks, even when using a variety of substrates, and can be used to manufacture semiconductor devices with good quality and at high yields. The III-V crystals are characterized by the following properties: the carrier concentration, resistivity, and dislocation density of the III-V compound crystal are uniform to within ±30% variation along the surface; the III-V compound crystal is misoriented from the c-plane such that the crystal surface does not include any region where its off-axis angle with the c-plane is 0°; and the full width at half-maximum in XRD at the crystal center of the III-V compound is not greater than 150 arcsec. | 04-15-2010 |
20100189624 | GROUP III NITRIDE CRYSTAL AND METHOD OF ITS GROWTH - Affords group III nitride crystal growth methods enabling crystal to be grown in bulk by a liquid-phase technique. One such method of growing group III nitride crystal from solution is provided with: a step of preparing a substrate having a principal face and including at least on its principal-face side a group III nitride seed crystal having the same chemical composition as the group III nitride crystal, and whose average density of threading dislocations along the principal face being 5×10 | 07-29-2010 |
20100229786 | Method for Growing Group III Nitride Crystal - A III-nitride crystal growth method that enables growing large-scale crystal under a liquid-phase technique is made available. The present III-nitride crystal growth method is a method of growing III-nitride crystal ( | 09-16-2010 |
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 |
20110260295 | III-Nitride Crystal Substrate and III-Nitride Semiconductor Device - Affords methods of manufacturing bulk III-nitride crystals whereby at least the surface dislocation density is low globally. The present III-nitride crystal manufacturing method includes: a step of preparing an undersubstrate ( | 10-27-2011 |
20120142168 | III-V Compound Crystal and Semiconductor Electronic Circuit Element - Favorable-quality III-V crystals are easily obtained at low cost without causing cracks, even when using a variety of substrates, and can be used to manufacture semiconductor devices with good quality and at high yields. The III-V crystals are characterized by the following properties: the carrier concentration, resistivity, and dislocation density of the III-V compound crystal are uniform to within ±30% variation along the surface; the III-V compound crystal is misoriented from the c-plane such that the crystal surface does not include any region where its off-axis angle with the c-plane is 0°; and the full width at half-maximum in XRD at the crystal center of the III-V compound is not greater than 150 arcsec. | 06-07-2012 |
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 |
Patent application number | Description | Published |
20080202409 | Method of growing GaN crystal, method of producing single crystal GaN substrate, and single crystal GaN substrate - A low dislocation density GaN single crystal substrate is made by forming a seed mask having parallel stripes regularly and periodically aligning on an undersubstrate, growing a GaN crystal on a facet-growth condition, forming repetitions of parallel facet hills and facet valleys rooted upon the mask stripes, maintaining the facet hills and facet valleys, producing voluminous defect accumulating regions (H) accompanying the valleys, yielding low dislocation single crystal regions (Z) following the facets, making C-plane growth regions (Y) following flat tops between the facets, gathering dislocations on the facets into the valleys by the action of the growing facets, reducing dislocations in the low dislocation single crystal regions (Z) and the C-plane growth regions (Y), and accumulating the dislocations in cores (S) or interfaces (K) of the voluminous defect accumulating regions (H). | 08-28-2008 |
20080283968 | Group III-Nitride Semiconductor Crystal and Manufacturing Method Thereof, and Group III-Nitride Semiconductor Device - A method of manufacturing group III-nitride semiconductor crystal includes the steps of accommodating an alloy containing at least a group III-metal element and an alkali metal element in a reactor, introducing a nitrogen-containing substance in the reactor, dissolving the nitrogen-containing substance in an alloy melt in which the alloy has been melted, and growing group III-nitride semiconductor crystal is provided. The group III-nitride semiconductor crystal attaining a small absorption coefficient and an efficient method of manufacturing the same, as well as a group III-nitride semiconductor device attaining high light emission intensity can thus be provided. | 11-20-2008 |
20090032907 | Method for Producing GaxIn1-xN(0<x>) Crystal Gaxin1-xn(0<x<1) Crystalline Substrate, Method for Producing GaN Crystal, GaN Crystalline Substrate, and Product - It seems that a conventional method for producing a GaN crystal by using HVPE has a possibility that the crystallinity of a GaN crystal can be improved by producing a GaN crystal at a temperature higher than 1100° C. However, such a conventional method has a problem in that a quartz reaction tube ( | 02-05-2009 |
20090155989 | NITRIDE SEMICONDUCTOR SUBSTRATE AND METHOD OF PRODUCING SAME - A nitride semiconductor crystal substrate is produced by forming a network mask repeating a closed loop unit shape upon an undersubstrate, growing a nitride semiconductor crystal in vapor phase, producing convex facet hills covered with facets on exposed parts Π, forming outlining concavities on mask-covered parts | 06-18-2009 |
20090215248 | AlxInyGa1-x-yN MIXTURE CRYSTAL SUBSTRATE, METHOD OF GROWING SAME AND METHOD OF PRODUCING SAME - Seeds are implanted in a regular pattern upon an undersubstrate. An Al | 08-27-2009 |
20090315150 | III-Nitride Crystal Manufacturing Method, III-Nitride Crystal Substrate, and III-Nitride Semiconductor Device - Affords methods of manufacturing bulk III-nitride crystals whereby at least the surface dislocation density is low globally. | 12-24-2009 |
20120040511 | AlxInyGa1-x-yN MIXTURE CRYSTAL SUBSTRATE, METHOD OF GROWING SAME AND METHOD OF PRODUCING SAME - Seeds are implanted in a regular pattern upon an undersubstrate. An Al | 02-16-2012 |