Patent application number | Description | Published |
20080240189 | SEMICONDUCTOR LASER - A semiconductor laser comprises: a substrate; an n-cladding layer disposed on the substrate; an active layer disposed on the n-cladding layer; a p-cladding layer disposed on the active layer and forming a waveguide ridge; and a diffraction grating layer disposed between the active layer and the n-cladding layer or the p-cladding layer and including a phase shift structure in a part of the diffraction grating layer in an optical waveguide direction. The width of the p-cladding layer is increased in a portion corresponding to the phase shift structure of the diffraction grating layer. | 10-02-2008 |
20100165356 | SEMICONDUCTOR OPTICAL ELEMENT - A semiconductor optical element has an active layer including quantum dots. The density of quantum dots in the resonator direction in a portion of the active layer in which the density of photons is relatively high is increased relative to the density of quantum dots in a portion of the active layer in which the density of photons is relatively low. | 07-01-2010 |
20100260225 | SEMICONDUCTOR LASER - A semiconductor laser comprises: a substrate; an n-cladding layer disposed on the substrate; an active layer disposed on the n-cladding layer; a p-cladding layer disposed on the active layer and forming a waveguide ridge; and a diffraction grating layer disposed between the active layer and the n-cladding layer or the p-cladding layer and including a phase shift structure in a part of the diffraction grating layer in an optical waveguide direction. The width of the p-cladding layer is increased in a portion corresponding to the phase shift structure of the diffraction grating layer. | 10-14-2010 |
20110305255 | SEMICONDUCTOR OPTICAL INTEGRATED ELEMENT AND METHOD FOR MANUFACTURING THE SAME - A semiconductor optical integrated element includes: a substrate; and a laser diode and a modulator which are integrated on the substrate. The laser diode includes an embedded waveguide having a core layer, both sides of which are embedded in a semiconductor material. The modulator includes a high-mesa ridge waveguide having a core layer, neither side of which is embedded in the semiconductor material. The core layers in the laser diode and the modulator are stripe-shaped. | 12-15-2011 |
20120056293 | SEMICONDUCTOR OPTICAL ELEMENT - A semiconductor optical element has an active layer including quantum dots. The density of quantum dots in the resonator direction in a portion of the active layer in which the density of photons is relatively high is increased relative to the density of quantum dots in a portion of the active layer in which the density of photons is relatively low. | 03-08-2012 |
20120087614 | OPTICAL MODULATOR - An optical modulator includes: a semiconductor chip; a waveguide in the semiconductor chip; a traveling wave electrode including an input portion and an output portion, to which a signal is applied for modulating light passing through the waveguide; a power supply line connected to the input portion via a first wire; and a termination resistor connected to the output portion via a second wire. Capacitance between the output portion and a grounding point is larger than capacitance between the input portion and the grounding point. | 04-12-2012 |
20120190147 | METHOD OF MANUFACTURING SEMICONDUCTOR OPTICAL ELEMENT - A method of manufacturing a semiconductor optical element having an active layer containing quantum dots, in which density of the quantum dots in a resonator direction in a portion of the active layer in which density of photons is high, relative to the density of the quantum dots in a portion of the active layer in which the density of photons is relatively low, includes forming the quantum dots in the active layer so that the distribution density is uniform in a resonator direction; and diffusing or implanting an impurity non-uniformly in the resonator direction in the active layer in which quantum dots are uniformly distributed, thereby disordering some of the quantum dots and forming a non-uniform density distribution of the quantum dots in the resonator direction in the active layer | 07-26-2012 |
20130016939 | OPTICAL DEVICEAANM TAKAGI; KazuhisaAACI TokyoAACO JPAAGP TAKAGI; Kazuhisa Tokyo JP - An optical device includes: a substrate; an optical branching filter on the substrate and dividing input light into first and second input lights; first and second Mach-Zehnder optical modulators on the substrate and respectively modulating the first and second input lights; and an optical coupler on the substrate and combining light modulated by the first Mach-Zehnder optical modulator and light modulated by the second Mach-Zehnder optical modulator. Each of the first and second Mach-Zehnder optical modulator includes two optical waveguides, a phase modulation electrode applying a modulation voltage across the optical waveguides to change phases of light in the optical waveguides, and a feed line and a terminal line respectively connected to opposite ends of the phase modulation electrode to supply the modulation voltage to the phase modulation electrode. The feed lines and the terminal lines respectively extend to peripheral portions of the substrate. | 01-17-2013 |
20130208350 | OPTICAL SEMICONDUCTOR DEVICE - An optical semiconductor device includes: semiconductor lasers; a wave coupling section multiplexing light output by the semiconductor lasers; an optical amplifying section amplifying output light of the wave coupling section; a first optical waveguide optically connecting respective semiconductor lasers to the wave coupling section; a second optical waveguide optically connecting the wave coupling section to the optical amplifying section; a third optical waveguide optically connected to an output of the optical amplifying section; and a phase regulator located in at least one of the first, second, and third optical waveguides, and regulating phase of reflected light that is reflected at a reflecting point in the optical semiconductor device and that returns to the semiconductor lasers. The phase regulator adjusts the phase of the reflected light to decrease line width of the light output by the semiconductor lasers. | 08-15-2013 |
20130272326 | MODULATOR INTEGRATED LASER DEVICE - An integrated optical modulator and laser device includes a laser section, a modulator section for modulating the intensity of a laser beam produced by the laser section, and a separation section located between the laser section and the modulator section. The laser section includes a first anode electrode and a first cathode electrode. The modulator section includes a second anode electrode and a second cathode electrode. A lower cladding layer is integral to the laser section, the modulator section, and the separation section and the width of the lower cladding layer is narrowest in the separation section. | 10-17-2013 |
20130343417 | OPTICAL SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - An optical semiconductor device includes: a semiconductor substrate; a semiconductor laser part on the semiconductor substrate and having a vertical ridge; and an optical modulator part on the semiconductor substrate, having an inverted-mesa ridge, and modulating light emitted by the semiconductor laser part. | 12-26-2013 |
20140112610 | SEMICONDUCTOR OPTICAL MODULATOR - A semiconductor optical modulator includes a substrate, which has a first conductivity type, and a first electrode on a first main surface of the substrate. A first cladding layer having the first conductivity type, a transparent waveguide layer, a second cladding layer having the first conductivity type, an optical-absorption layer, and a third cladding layer having a second conductivity type, are sequentially laminated on a second main surface of the substrate. A ridge part is formed by removing a part of the third cladding layer and a part of the second cladding layer in a laminated direction. A second electrode on the ridge part is electrically connected to the third cladding layer. | 04-24-2014 |
20140198378 | OPTICAL SEMICONDUCTOR DEVICE - An optical semiconductor device includes: semiconductor lasers; a wave coupling section multiplexing light output by the semiconductor lasers; first optical waveguides respectively optically connecting respective semiconductor lasers to the wave coupling section; a phase regulator regulating phase of reflected light that is reflected at a reflecting point located in the optical semiconductor device and that returns to the semiconductor lasers; a second optical waveguide optically connecting the wave coupling section to the phase regulator; an optical amplifying section amplifying output light of the phase regulator; and a third optical waveguide optically connecting an output of the phase regulator to the optical amplifying section. The phase regulator adjusts the phase of reflected light that returns to the semiconductor lasers to decrease line width of the light output by the semiconductor lasers. | 07-17-2014 |