Patent application number | Description | Published |
20080225918 | INDEX GUIDED SEMICONDUCTOR LASER WITH LOSS-COUPLED GRATINGS AND CONTINUOUS WAVEGUIDE - A system and a method of manufacture for a semiconductor laser with a continuous waveguide ridge extending the length of the laser. The continuous waveguide ridge is positioned through the center of the optical components of the semiconductor laser. The optical components including the waveguide ridge may be distributed Bragg reflectors (DBRs), outcoupling gratings, and phase controllers. The illustrated embodiments include lateral-grating grating-stabilized edge-emitting lasers and lateral-grating grating-stabilized surface-emitting (GSE) lasers. Both loss-coupled and non-loss-coupled lateral-grating components are illustrated. | 09-18-2008 |
20080310465 | Method and Laser Device for Stabilized Frequency Doubling - A system and method for emitting a plurality of second harmonic light frequencies that is generally unaffected by small variations in external cavity length and temperature. An illustrative embodiment provides a laser system that comprises a semiconductor gain region operating within the coherence collapse regime, an intra-cavity nonlinear optical medium, and a feedback reflector. The semiconductor gain region operates in the coherence collapse regime and produces broad frequency fundamental light, the nonlinear resonator doubles a first portion of the broad frequency fundamental light and emits a plurality of second harmonic light frequencies external to the laser system. A second portion of the broad frequency fundamental light is reflected into the semiconductor gain region with a feedback power ratio sufficient to cause the semiconductor gain region to operate in the coherence collapse regime. | 12-18-2008 |
20090083679 | Efficient Second Harmonic Generation (SHG) Laser Design - A method, a data processing method, and a computer program product for the design of efficient second harmonic generation semiconductor lasers is disclosed. A method for determining an optimum laser configuration includes the determination of a conversion efficiency curve for each SHG configuration using a target conversion efficiency. Each curve, on a log | 03-26-2009 |
20090103576 | System and Method of Providing Second Harmonic Generation (SHG) Light in a Single Pass - A system and method of providing second harmonic generation (SHG) light in a single pass. A frequency stabilized semiconductor seed laser provides a first frequency light to a fiber amplifier. A focusing optic configuration receives the amplified first frequency light and focuses the amplified first frequency light into a non-linear material. A harmonic separator separates the first frequency light from the second frequency light and an optical output structure outputs the second frequency light. | 04-23-2009 |
20090168814 | Second Harmonic Generation Laser System - A method of manufacturing a second harmonic laser system is provided. A seed laser is optically coupled to a first port of a polarizing beam splitter using a polarization maintaining fiber. A first end of a non-polarization maintaining doped optical fiber is optically coupled to a second port of the polarizing beam splitter. A second end of a non-polarization maintaining doped optical fiber is optically connected to a rotator/reflector. A third port of the polarizing beam splitter is optically coupled to a nonlinear crystal. | 07-02-2009 |
20090168820 | Mitigated Temperature Gradient-Distributed Bragg Reflector - A semiconductor laser system comprising a gain region, a gain contact coupled to the gain region, and a distributed Bragg reflector (DBR) having a near side and a far side with respect to the gain region are provided. The DBR reflects a resonant frequency of light back into the gain region. The semiconductor laser system further comprises a heat conducting structure, wherein the heat-conducting structure is positioned to transfer heat in a direction from the near side to the far side of the DBR grating, and an outcoupler, positioned to outcouple the resonant frequency of light from the semiconductor laser system. | 07-02-2009 |
20100284435 | Red-Shifted Optical Feedback Laser - A semiconductor laser is provided, and a method of producing 600-1100 laser light, and a method of making a semiconductor laser is provided. The semiconductor laser includes a quantum well layer with a spectral profile of peak wavelength λ | 11-11-2010 |
20120033290 | Light Generating System and Method - An optical system includes an electrically pumped laser light source and an optically pumped laser light source. An optical switch is located in a light path of the electrically pumped laser light source such that when the optical switch is in a first position light from the electrically pumped laser light source is directed toward the optically pumped laser light source and when the optical switch is in a second position light from the electrically pumped laser light source is directed away from the optically pumped laser light source. | 02-09-2012 |
20120195021 | Rear Projection Display Using Laser Excited Photoluminescence - A display system includes an optical light source and a display panel with an array of optically excitable pixels. Optics are positioned between the optical light source and the display panel so as to direct light from the optical light source toward the display panel to cause the optically excitable pixels to emit a visible image. | 08-02-2012 |
20130022073 | Single-Frequency Distributed Feedback Laser Diode with Complex-Coupling Coefficient and Transparent Conductive Cladding Layer - The illustrated embodiments provide a system and a method of manufacture for a complex-coupled distributed feedback laser diode. The improved laser diode has a complex-coupled metal grating to enforce the laser to emit in a longitudinal single-frequency and suppress dynamical instabilities. In addition, the improved device uses a transparent conductive cladding layer over the metal grating and makes therefore the need for re-growth redundant. | 01-24-2013 |
20140160555 | Light Generating System and Method - An optical system includes an electrically pumped laser light source and an optically pumped laser light source. An optical switch is located in a light path of the electrically pumped laser light source such that when the optical switch is in a first position light from the electrically pumped laser light source is directed toward the optically pumped laser light source and when the optical switch is in a second position light from the electrically pumped laser light source is directed away from the optically pumped laser light source. | 06-12-2014 |