| Patent application number | Description | Published |
|---|
| 20090214156 | Optical module and optical waveguide - An optical module includes an optical waveguide including a waveguide core through which light propagates and a clad configured to trap the light in the waveguide core, and a circuit board on which a surface-type optical element is mounted. The optical waveguide further includes a reflective surface from which an end face of the waveguide core is exposed, the reflective surface being provided on an inclined face at one end face of the optical waveguide core in an extending direction of the waveguide core, and an element mount opening provided in the clad such as to be opposite from the reflective surface, the element mount opening having a size such as to contain the optical element. The optical waveguide is mounted on the circuit board while the optical element is contained in the element mount opening and is aligned with the reflective surface of the optical waveguide. | 08-27-2009 |
| 20090214157 | Optical module and optical waveguide - An optical module includes an optical waveguide including a plurality of waveguide cores through which light propagates, a clad configured to trap the light in the waveguide cores, a plurality of fiber guide grooves in which optical fibers are inserted, the fiber guide grooves being arranged in parallel, and an adhesive spread groove configured to connect the fiber guide grooves and provided at leading ends of the fiber guide grooves with which the optical fibers contact; and a fixing member fixed to the optical waveguide with an adhesive while covering the fiber guide grooves. The fiber guide grooves have side walls including support projections configured to support, align, and optical couple the optical fibers to the waveguide cores, and adhesive recesses configured to define gaps between outer peripheral surfaces of the optical fibers and the fiber guide grooves so that the adhesive spreads in the gaps. | 08-27-2009 |
| 20100021107 | Optical device - An optical device includes: a multilayer structure substrate on which plural insulating layers are stacked and a wiring pattern is formed between layers; a recessed part for exposing the wiring pattern between the layers by cutting off a part of the multilayer structure substrate; an optical element mounted within the recessed part in electric conduction to the wiring pattern exposed by the recessed part; and an optical waveguide member forming an optical path for the optical element and guiding light along a surface of the multilayer structure substrate. | 01-28-2010 |
| 20100200868 | Semiconductor Light-emitting device - A semiconductor light-emitting device includes a semiconductor light-emitting element including a first multilayer reflector, an active layer having a light-emitting region, and a second multilayer reflector in the stated order; a semiconductor light-detecting element disposed opposite the first multilayer reflector in relation to the semiconductor light-emitting element and including a light-absorbing layer configured to absorb light emitted from the light-emitting region; a transparent substrate disposed between the semiconductor light-emitting element and the semiconductor light-detecting element; a first metal layer having a first opening in a region including a region opposite the light-emitting region and bonding the semiconductor light-emitting element and the substrate; and a second metal layer having a second opening in a region including a region opposite the light-emitting region and bonding the semiconductor light-detecting element and the substrate. | 08-12-2010 |
| 20100202482 | Semiconductor device - The present invention provides a semiconductor device realizing improved adhesion between a low-dielectric-constant material and a semiconductor material. The semiconductor device includes, on a semiconductor layer, an adhesion layer and a low-dielectric-constant material layer in order from the semiconductor layer side. The adhesion layer has a projection/recess structure, and the low-dielectric-constant material layer is formed so as to bury gaps in the projection/recess structure. | 08-12-2010 |
| 20100202486 | Vertical cavity surface emitting laser and method of manufacturing thereof - A vertical cavity surface emitting laser capable of reducing parasitic capacitance while suppressing power consumption, and a method of manufacturing thereof are provided. The vertical cavity surface emitting laser includes a columnar mesa including, on a substrate, a first multilayer reflector, an active layer, and a second multilayer reflector in order from the substrate side, and also including a current narrowing layer. The columnar portion of the mesa including the active layer and the current narrowing layer is formed within a region opposed to the first multilayer reflector and a region opposed to the second multilayer reflector, and a cross section area of the columnar portion is smaller than a cross section area of the second multilayer reflector. | 08-12-2010 |
| 20110042558 | Optical device and method of manufacturing the same - An optical device and a method of making an optical device is described herein. The optical device comprises a housing, an optical element, a base structure that supports the optical element and that interfaces with the housing to form a gap section between an outer wall section of the base structure and an inner wall section of the housing, a resin within the gap section fixing the housing to the base structure, and a light accommodation section in the housing. The light accommodation section accommodates a transmittance of light to the resin within the gap section. | 02-24-2011 |
| 20120009704 | Vertical cavity surface emitting laser and method of manufacturing thereof - A vertical cavity surface emitting laser capable of reducing parasitic capacitance while suppressing power consumption, and a method of manufacturing thereof are provided. The vertical cavity surface emitting laser includes a columnar mesa including, on a substrate, a first multilayer reflector, an active layer, and a second multilayer reflector in order from the substrate side, and also including a current narrowing layer. The columnar portion of the mesa including the active layer and the current narrowing layer is formed within a region opposed to the first multilayer reflector and a region opposed to the second multilayer reflector, and a cross section area of the columnar portion is smaller than a cross section area of the second multilayer reflector. | 01-12-2012 |
