Patent application number | Description | Published |
20080240194 | Vertical cavity surface emitting laser and method of manufacturing it - A VSCEL capable of being easily and inexpensively manufactured and of stabilizing the polarization direction of laser light in one direction is provided. The Vertical Cavity Surface Emitting Laser includes a semiconductor lamination structure including a first multilayer film reflector, an active layer having a light emitting region, and a second multilayer film reflector in this order over a substrate from the substrate side. The semiconductor lamination structure has a pair of grooves provided with a region opposed to the light emitting region in between, and one or a plurality of first oxidation layers including a first non-oxidation region provided at least in a region opposed to the light emitting region and a first oxidation region provided on each side face of the pair of grooves. | 10-02-2008 |
20090052490 | Laser diode array, method of manufacturing same, printer, and optical communication device - A method of manufacturing a laser diode array capable of inhibiting electric cross talk is provided. The method of manufacturing a laser diode array includes a processing step of forming a peel layer containing an oxidizable material and a vertical resonator structure over a first substrate sequentially from the first substrate side by crystal growth, and then selectively etching the peel layer and the vertical resonator structure to the first substrate, thereby processing into a columnar shape, a peeling step of oxidizing the peel layer from a side face, and then peeling the vertical resonator structure of columnar shape from the first substrate, and a rearrangement step of jointing a plurality of vertical resonator structures of columnar shape obtained by the peeling step to a surface of a metal layer of a second substrate formed with the metal layer on the surface. | 02-26-2009 |
20090129417 | Surface-Emitting Laser Diode and Method of Manufacturing the Same - A surface-emitting laser diode capable of being manufactured easily at low cost, and capable of stabilizing the polarization direction of laser light in one direction and achieving higher output is provided. A light emission section | 05-21-2009 |
20100040104 | Vertical cavity surface emitting laser - The present invention provides a Vertical Cavity Surface Emitting Laser including: a first multilayer film reflector; an active layer having a light emission region; a second multilayer film reflector; and a reflectance adjustment layer in this order on a substrate side. The first multilayer film reflector and the second multilayer film reflector have a laminated structure in which reflectance of oscillation wavelength λ | 02-18-2010 |
20100046565 | Vertical cavity surface emitting laser - A vertical cavity surface emitting laser includes a layer-stack structure including, on a substrate, a transverse-mode adjustment layer, a first multilayer reflecting mirror, an active layer having a light emission region, and a second multilayer reflecting mirror in order from the substrate side, and including a current confinement layer in which a current injection region is formed in a region corresponding to the light emission region in the first multilayer reflecting mirror, between the first multilayer reflecting mirror and the active layer, between the active layer and the second multilayer reflecting mirror, or in the second multilayer reflecting mirror. In the transverse-mode adjustment layer, reflectance at an oscillation wavelength in the region opposite to a center of the light emission region is higher than that at an oscillation wavelength in the region opposite to an outer edge of the light emission region. | 02-25-2010 |
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 |
20100226402 | Laser diode and method of manufacturing the same - A laser diode allowed to stabilize the polarization direction of laser light in one direction is provided. The laser diode includes a laminate configuration including a lower multilayer reflecting mirror, an active layer and an upper multilayer reflecting mirror in order from a substrate side, in which the laminate configuration includes a columnar mesa section including an upper part of the lower multilayer reflecting mirror, the active layer and the upper multilayer reflecting mirror, and the lower multilayer reflecting mirror includes a plurality of pairs of a low refractive index layer and a high refractive index layer, and a plurality of oxidation layers nonuniformly distributed in a direction rotating around a central axis of the mesa section in a region except for a central region of one or more of the low refractive index layers. | 09-09-2010 |
20100238965 | Semiconductor laser - A semiconductor laser includes a columnar lamination structure including a first multi-layer reflection mirror, a first spacer layer, an Al | 09-23-2010 |
20110007769 | LASER DIODE - A laser diode includes: a first multilayer film reflecting mirror, an active layer, and a second multilayer film reflecting mirror in this order; and a first oxide narrowing layer and a second oxide narrowing layer. The first oxide narrowing layer is formed close to the active layer, in comparison with the second oxide narrowing layer, includes a first unoxidized region in a middle region in a plane, and includes a first oxidized region on a periphery of the first unoxidized region. The second oxide narrowing layer includes, in a region facing the first unoxidized region, a second unoxidized region having a diameter smaller than that of the first unoxidized region, includes a third unoxidized region in a region not facing the first unoxidized region, and includes a second oxidized region on a periphery of the second unoxidized region and the third unoxidized region. | 01-13-2011 |
20110075691 | Correction circuit, drive circuit, light emitting device, and method of correcting current pulse waveform - A correction circuit is provided, which may reduce dullness of a light output waveform due to wavelength detuning. The correction circuit includes an RC time constant circuit. The RC time constant circuit is used to correct a waveform of a current pulse outputted from a current source, the current source driving a surface-emitting semiconductor laser in a pulsed manner, so that a pulse waveform of light output of the semiconductor laser is approximately a rectangle. | 03-31-2011 |
20110096806 | Semiconductor light emitting device - The present invention provides a semiconductor light emitting device realizing increased light detection precision by a simple manufacture process. One or more second oxidation layers are provided between an active layer and a semiconductor light detecting element in addition to a first oxidation layer for narrowing current. Since natural emission light includes many divergence components, the natural emission light is reflected and scattered by the second oxidation layer, and propagation of the natural emission light to the semiconductor light detecting element side is suppressed. The detection level of the natural emission light by the semiconductor light detecting element decreases, and light detection precision increases. The first and second oxidation layers are formed by a single oxidizing process so that the manufacturing process is simplified. | 04-28-2011 |
20110164646 | Laser diode array, method of manufacturing same, printer, and optical communication device - A method of manufacturing a laser diode array capable of inhibiting electric cross talk is provided. The method of manufacturing a laser diode array includes a processing step of forming a peel layer containing an oxidizable material and a vertical resonator structure over a first substrate sequentially from the first substrate side by crystal growth, and then selectively etching the peel layer and the vertical resonator structure to the first substrate, thereby processing into a columnar shape, a peeling step of oxidizing the peel layer from a side face, and then peeling the vertical resonator structure of columnar shape from the first substrate, and a rearrangement step of jointing a plurality of vertical resonator structures of columnar shape obtained by the peeling step to a surface of a metal layer of a second substrate formed with the metal layer on the surface. | 07-07-2011 |
20110182315 | Surface-emitting semiconductor laser and manufacturing method thereof - A manufacturing method of a surface-emitting semiconductor laser includes the steps of: forming a stacked structure having a lower-multilayer film reflector including a lower oxidizable layer having at least one layer, an active layer having a light emitting region, an upper-multilayer film reflector including an upper oxidizable layer and an upper layer on a substrate in this order; providing a first groove in the upper layer; and providing a second groove including a portion overlapping the first groove in a planar shape and a portion not overlapping the first groove in the stacked structure. | 07-28-2011 |
20110194579 | Vertical cavity surface emitting laser - A Vertical Cavity Surface Emitting Laser (VCSEL) capable of providing high output of fundamental transverse mode while preventing oscillation of high-order transverse mode is provided. The VCSEL includes a semiconductor layer including an active layer and a current confinement layer, and a transverse mode adjustment section formed on the semiconductor layer. The current confinement layer has a current injection region and a current confinement region. The transverse mode adjustment section has a high reflectance area and a low reflectance area. The high reflectance area is formed in a region including a first opposed region opposing to a center point of the current injection region. A center point of the high reflectance area is arranged in a region different from the first opposed region. The low reflectance area is formed in a region where the high reflectance area is not formed, in an opposed region opposing to the current injection region. | 08-11-2011 |
20110241571 | Correction circuit, drive circuit, light-emitting device and correction method of current pulse waveform - A drive circuit and a drive current correcting method are described herein. The drive circuit comprises a current source that outputs a drive current, and a correction circuit that outputs a correction current. The correction circuit includes a first RC time constant circuit. An output terminal of the current source is connected to an output terminal of the correction circuit. | 10-06-2011 |