Patent application number | Description | Published |
20140147953 | Method for Peeling Group 13 Element Nitride Film | 05-29-2014 |
20140158978 | Semiconductor Light-Emitting Element and Laminate Containing Same - A semiconductor light emitting device includes a film of a nitride of a group 13 element grown on a seed crystal substrate by flux method from a melt including a flux and a group 13 element under nitrogen containing atmosphere, an n-type semiconductor layer provided on the film of the nitride, a light emitting region provided on the n-type semiconductor layer, and a p-type semiconductor layer provided on the light emitting region. The film includes an inclusion distributed layer in a region distant by 50 μm or less from an interface of the film on the side of the seed crystal substrate and including inclusions derived from components of the melt, and an inclusion depleted layer with the inclusion depleted formed on the inclusion distributed layer. | 06-12-2014 |
20140197420 | Films of Nitrides of Group 13 Elements and Layered Body Including the Same | 07-17-2014 |
20140362886 | External Resonator Type Light Emitting System - An external resonator type light emitting system includes a light source oscillating a semiconductor laser light and a grating device providing an external resonator with the light source. The light source includes an active layer oscillating the semiconductor laser light. The grating device includes an optical waveguide having an incident face to which the semiconductor laser is incident and an emitting face of emitting an emitting light of a desired wavelength, a Bragg grating formed in the optical waveguide, and a propagating portion provided between the incident face and the Bragg grating. Formulas (1) to (4) are satisfied. | 12-11-2014 |
20150147020 | External Resonator Type Light Emitting System - An external resonator type light emitting system includes a light source oscillating a semiconductor laser light and a grating device providing an external resonator with the light source. The light source includes an active layer oscillating the semiconductor laser light. The grating device includes an optical waveguide having an incident face to which the semiconductor laser is incident and an emitting face of emitting an emitting light of a desired wavelength, a Bragg grating formed in the optical waveguide, and a propagating portion provided between the incident face and the Bragg grating. Formulas (1) to (4) are satisfied. | 05-28-2015 |
20160047984 | EVANESCENT LIGHT GENERATION ELEMENT AND EVANESCENT LIGHT GENERATION DEVICE - An evanescent light generation element for oscillating evanescent light from an optical waveguide to a clad layer, including a 0.1 μm-10 μm thin layer composed of a ferroelectric single crystal or oriented crystal having first and second principal surfaces, and incident side end and exit side end surfaces. A ridge optical waveguide is formed in the thin layer and extends between the incident and exit side end surfaces of the thin layer. At least a pair of grooves is formed on both sides of the ridge optical waveguide in the thin layer and opened at the first principal surface of the thin layer. A clad layer is provided on the first principal surface or the second principal surface. A width of the ridge optical waveguide at the exit side end surface is less than a width of the ridge optical waveguide at the incident side end surface. | 02-18-2016 |
20160087405 | External Resonator-Type Light Emitting Device - An external resonator type light emitting system includes a light source oscillating a semiconductor laser light and a grating device providing an external resonator with the light source. The light source includes an active layer oscillating the semiconductor laser light. The grating device includes an optical waveguide having an incident face to which the semiconductor laser is incident and an emitting face of emitting an emitting light of a desired wavelength, a Bragg grating formed in the optical waveguide, and a propagating portion provided between the incident face and the Bragg grating. Formulas (1) to (4) are satisfied. | 03-24-2016 |
20160108552 | COMPOSITE SUBSTRATE, METHOD FOR FABRICATING SAME, FUNCTION ELEMENT, AND SEED CRYSTAL SUBSTRATE - A composite substrate includes a polycrystalline ceramic substrate, a silicon substrate directly bonded to the polycrystalline ceramic substrate, a seed crystal film formed on the silicon substrate by vapor phase process and made of a nitride of a group 13 element, and a gallium nitride crystal layer grown on the seed crystal film by flux method. | 04-21-2016 |