Patent application number | Description | Published |
20090142871 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device provides a semiconductor device with a gallium-nitride-based semiconductor structure that allows long-term stable operation without degradation in device performance. After formation of an insulation film on a surface other than on a ridge surface, an oxygen-containing gas such as O | 06-04-2009 |
20090162962 | METHOD OF MANUFACTURING NITRIDE SEMICONDUCTOR LASER - The invention provides a high-reliability nitride semiconductor laser that reduces the stress of a nitride dielectric film formed on a resonator's end face, thus reducing possible damage to the resonator's end face, which may occur during the formation of the nitride dielectric film. A method of manufacturing a nitride semiconductor laser according to the invention uses a nitride-based III-V compound semiconductor and includes the steps of (a) forming an adherence layer of a nitride dielectric on both a light-emitting and a light-reflecting end face of a resonator in plasma containing a nitrogen gas; and (b) forming a low-reflective and a high-reflective face-coating film of a dielectric on the adherence layers. | 06-25-2009 |
20090170304 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device is provided, which can reduce the contact resistance of an ohmic electrode to a p-type nitride semiconductor layer and can achieve long-term stable operation. In forming, in an electrode forming step, a p-type ohmic electrode of a metal film by successive lamination of a Pd film which is a first p-type ohmic electrode and a Ta film which is a second p-type ohmic electrode on a p-type GaN contact layer, the metal film is formed to include an oxygen atom. In the presence of an oxygen atom in the metal film, then in a heat-treatment step, the p-type ohmic electrode of the metal film is heat-treated in an atmosphere that contains no oxygen atom-containing gas. | 07-02-2009 |
20090185595 | SEMICONDUCTOR LASER - A GaN laser, includes a coating film on a front end surface through which laser light is emitted. The coating film includes a first insulating film in contact with the front end surface and a second insulating film on the first insulating film. The optical film thickness of the second insulating film is an odd multiple of λ/4 with respect to the wavelength λ of laser light produced by the semiconductor laser. The adhesion of the first insulating film to GaN is stronger than the adhesion of the second insulating film; to GaN. The refractive index of the second insulating film is 2 to 2.3 thick. The first insulating film is 10 nm or less. The first insulating film is an oxide film having a stoichiometric composition. | 07-23-2009 |
20110204028 | METHOD OF MANUFACTURING A GLASS SUBSTRATE FOR A MAGNETIC DISK - A method for manufacturing a glass substrate for a magnetic disk comprises a surface grinding step of processing a mirror-surface plate glass, having a main surface in the form of a mirror surface, to a required flatness and surface roughness using fixed abrasive particles. The method comprises, before the surface grinding step using the fixed abrasive particles, a surface roughening step of roughening the surface of the mirror-surface plate glass by frosting. | 08-25-2011 |
20110249694 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor device includes a submount; a semiconductor laser mounted on the submount via solder in a junction-down manner. The semiconductor laser includes a semiconductor substrate, a semiconductor laminated structure containing a p-n junction, on the semiconductor substrate, and an electrode on the semiconductor laminated structure and joined to the submount via the solder. A high-melting-point metal or dielectric film is located between the submount and the semiconductor laminated structure and surrounds the electrode. | 10-13-2011 |
20120251711 | METHOD OF MANUFACTURING A GLASS SUBSTRATE FOR A MAGNETIC DISK AND METHOD OF MANUFACTURING A MAGNETIC DISK - In a magnetic disk glass substrate manufacturing method, a main surface of a glass substrate is polished using a polishing liquid containing colloidal silica abrasive particles as polishing abrasive particles and a surface plate with a polishing pad, then the glass substrate is brought into contact with a liquid containing a coagulant so that the colloidal silica abrasive particles are coagulated, and then the colloidal silica abrasive particles coagulated are removed. | 10-04-2012 |
20130119015 | MANUFACTURING METHOD OF A GLASS SUBSTRATE FOR A MAGNETIC DISK - An object of the invention is to effectively remove particles on the glass substrate surfaces, even in the case wherein abrasive particles having a small particle size is used in the polishing step of the glass substrate and a supersonic treatment is performed at a high frequency at the supersonic cleaning step after the polishing step. In a manufacturing method of a glass substrate for a magnetic disk comprising a polishing step for performing polishing of the glass substrate and a supersonic cleaning step for performing supersonic cleaning of the glass substrate after the polishing step, the polishing step uses abrasive particles having a particle size of 10 nm to 30 nm and a first supersonic cleaning is performed at a frequency of 300 kHz to 1,000 kHz to form secondary particles and then a second supersonic cleaning is performed at a frequency of 30 kHz to 100 kHz in the supersonic cleaning step. | 05-16-2013 |
20140011349 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - The present invention relates to a method for manufacturing a heterojunction semiconductor device including an AlGaN layer, the method including the steps of (a) forming a dummy electrode in a region where a gate electrode is arranged on the AlGaN layer, (b) depositing a dielectric film on the AlGaN layer by exposing side surfaces of the dummy electrode, using a device having anisotropy, (c) forming an opening in the dielectric film by removing the dummy electrode, and (d) forming the gate electrode that extends from inside the opening onto the dielectric film in a vicinity of the opening. | 01-09-2014 |
20150069408 | HETEROJUNCTION FIELD EFFECT TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - A laminate includes a surface on which a gate electrode is provided, and is made of a nitride semiconductor. The laminate includes a first layer having a first band gap, and a second layer provided between the first layer and the surface and having a second band gap which is larger than the first band gap. The first and second layers and form a joint surface by a hetero junction. The surface includes a surface defect density equal to or smaller than 1.7×10 | 03-12-2015 |