Class / Patent application number | Description | Number of patent applications / Date published |
372098000 | Specified cavity component | 85 |
20080198893 | Laser Assembly - A laser assembly is suitable for coupling laser light into at least one optical fiber. The laser assembly contains a plurality of laser light sources disposed spaced from a light entrance surface of the at least one optical fiber. The laser light sources are divided into at least one group of first laser light sources and at least one group of second laser light sources. An aperture is provided and is suitable for spatially confining the laser light emitted during operation of the laser light sources before being coupled into the at least one optical fiber. A coupling device is provided and is suitable for coupling the laser light during operation of the first and second laser light sources before it enters into the at least one optical fiber. | 08-21-2008 |
20080205477 | LIGHT EMITTING DEVICE - A light emitting device includes a first unit having a first excitation light source including a laser element emitting blue wavelength band excitation light, and a first wavelength converting member including at least one type of fluorescent material and which absorbs at least a portion of a first excitation light, converts the wavelength, and releases light with a wavelength longer than the first excitation light, and a second unit having a second excitation light source including a laser element which emits excitation light with a wavelength band shorter than the blue wavelength band excitation light, and a second wavelength converting member which includes at least one type of fluorescent material and which absorbs at least a portion of a second excitation light, converts the wavelength, and releases light with a wavelength longer than the second excitation light. The first unit and the second unit are combined using a bundle fiber. | 08-28-2008 |
20080225923 | UNSTABLE MONOBLOCK LASER CAVITY - A monoblock laser cavity includes a plurality of discrete optical components disposed serially on a substrate and sharing a common optical axis. The optical components include a laser rod of gain material, a Q-switch, an OPO crystal, and an output coupler. The output coupler has at least one convex end face to improve the beam quality. | 09-18-2008 |
20080232421 | Method and Apparatus for Forming a Plurality of Laser Beams With Ultraviolet Wavelength, and Laser Machining Apparatus - The invention provides a method and an apparatus for forming a plurality of ultraviolet-wavelength laser beams, and a laser machining apparatus, in which the machining efficiency can be improved due to easy maintenance and inspection while deterioration of wavelength conversion means can be prevented to reduce the running cost. A laser beam with a near infrared wavelength output from a laser oscillator is branched into a plurality of laser beams by a laser distribution unit. Each branched laser beam is partially converted into a laser beam whose wavelength is ½ of the near infrared wavelength by a wavelength converter. An ultraviolet laser beam whose wavelength is ⅓ of the near infrared wavelength of the laser beam is formed out of the branched laser beam and the laser beam with the wavelength which is ½ of the near infrared wavelength by another wavelength converter, both the branched laser beam and the laser beam with the wavelength which is ½ of the near infrared wavelength being output from the wavelength converter. The ultraviolet laser beam is extracted and supplied to a portion to be machined, by a wavelength separator. | 09-25-2008 |
20080259988 | OPTICAL ACTUATOR WITH IMPROVED RESPONSE TIME AND METHOD OF MAKING THE SAME - An optical actuator having an improved response time and an improved frequency operational range due to the reduced mass of a substrate coupled to an actuator and method of making the same. The optical actuator may be formed by adhering an uncoated substrate to the actuator using an epoxy. Once cured, any deformities and irregularities in a top surface of the substrate are removed. An optical coating is then applied to the top surface of the substrate. Once finished, the optical actuator may be used in a laser resonating cavity. Further, the optical actuator desirably may have a resonant frequency of about 150 kHz. | 10-23-2008 |
20080317084 | Laser Interferometer Mirror Assembly - A laser interferometer mirror assembly ( | 12-25-2008 |
20090059992 | LIGHT SOURCE DEVICE, IMAGE DISPLAY DEVICE, AND MONITOR DEVICE - A light source device includes a plurality of light emitting elements for emitting light beams, a resonant mirror functioning as a resonator for selectively reflecting the light beams emitted respectively from the light emitting elements, towards the light emitting elements, a wavelength selection element disposed on light paths between the light emitting elements and the resonant mirror, having a plurality of light selection areas for executing selection respectively on the light beams emitted respectively from the light emitting elements, transmitting light beams each having a part of a wavelength band of corresponding one of the light beams emitted respectively from the light emitting elements, and having a narrower width of a wavelength band of the light beam to be transmitted than a width of wavelength band of the light beam to be reflected by the resonant mirror, and a state changing section that changes a state of the plurality of light selection areas, and the state changing section changes the state of the light selection areas so that wavelengths of the light beams selected respectively by the light selection areas become different from each other. | 03-05-2009 |
20100303123 | COMPACT OPTICAL RESONATORS - Various embodiments of the present invention are directed to compact, sub-wavelength optical resonators. In one aspect, an optical resonator comprises two approximately parallel reflective structures positioned and configured to form a resonant cavity. The resonator also includes a fishnet structure disposed within the cavity and oriented approximately parallel to the reflective structures. The resonant cavity is configured with a cavity length that can support resonance with electromagnetic radiation having a fundamental wavelength that is more than twice the cavity length. | 12-02-2010 |
20110013661 | LASER CRYSTAL DEVICE - The present disclosure relates to a laser crystal device ( | 01-20-2011 |
20110032968 | Laser arrangement and resonator element for such a laser arrangement - In a laser arrangement comprising at least one laser medium for producing a laser emission, a laser resonator having a beam path with a length of at least 20 cm and with at least one end mirror, the beam path within the laser resonator is formed at least partly by free-beam optics. A resonator element arranged in the beam path has at least two optical surfaces as surfaces interacting with the radiation led via the beam path, these optical surfaces being rigidly connected to one another and being adjustable together in the beam path in such a way that, on tilting by an angle error, they achieve substantially the same effect on the guidance of the beam path but with opposite sign, so that mutual compensation of tilt errors takes place. | 02-10-2011 |
20110228807 | OPTICAL ARRANGEMENT AND METHOD - Processing of incoherent electromagnetic radiation is described, said incoming incoherent electromagnetic radiation comprising radiation in a first wavelength interval. An arrangement comprises a focusing arrangement for focusing the incoming incoherent electromagnetic radiation, a first cavity configured to comprise an intra cavity laser beam, a nonlinear crystal arranged in the first cavity such that it is capable of receiving the focused incoherent electromagnetic radiation and, in dependence on the spatial overlap between the focused incoherent electromagnetic radiation and the intra-cavity laser beam, by interaction with the intra-cavity laser beam provide processed electromagnetic radiation, said processed electromagnetic radiation comprising radiation in a second wavelength interval. In other words, such an arrangement is capable of enabling imaging, e.g. by utilizing a detector that is sensitive in the second wavelength interval, a source of radiation that emits incoherently in a first wavelength interval. | 09-22-2011 |
20110280272 | LASER LIGHT SOURCE DEVICE - A laser light source device including: a laser light source that emits laser beams from a plurality of light emitting points; and a polarization rotating unit that is arranged on a light axis of a laser beam output from one or a plurality of light emitting points of the laser light source, wherein the polarization rotating unit rotates a polarization of the laser beam output from one or a plurality of light emitting points by about 90°. | 11-17-2011 |
20120250720 | AMPLIFICATION OF LONG-RANGE SURFACE PLASMONS WITH REDUCED NOISE - An optical amplifier suitable for coherently amplifying surface plasmon-polariton waves with high gain and low noise over visible and infrared wavelengths. The optical amplifier is comprised of a thin strip of material having a complex permittivity with a negative real part, in contact on at least one side with an optical gain medium, where the strip has finite width and thickness such that optical radiation couples to the strip and propagates along its length as a surface plasmon-polariton wave. The surface plasmon-polariton amplifier can also be incorporated into a resonant cavity to form a plasmon-polariton laser. | 10-04-2012 |
20130094533 | LASER - The invention relates to a laser ( | 04-18-2013 |
20130215925 | METHOD OF GENERATING ENHANCED INTRA-RESONATOR LASER LIGHT, ENHANCEMENT RESONATOR AND LASER DEVICE - A method of generating intra-resonator laser light ( | 08-22-2013 |
20150010036 | OPTICAL AMPLIFIER SYSTEM AND PULSED LASER USING A REDUCED AMOUNT OF ENERGY PER PULSE - The invention relates to an optical amplifier system for amplifying laser pulses, including a solid amplifying medium capable of receiving a beam of laser pulses to be amplified and generating a beam of amplified laser pulses, and a means of reducing the energy stored in said optical amplifying medium by means of optical pumping. According to the invention, said reducing means includes a continuous resonant cavity and a first optical separation means capable of sepaarating continuous resonant cavity into a common portion and a low arm, the common portion including an optical amplifying medium and the loss arm inlcuding an optical loss means, said optical separation means being capable of selectively directing a beam of pulses outside the optical path of said loss arm of the continuous resonant cavity, and of directing a continuous bean toward said loss arm of the continuous resonant cavity. | 01-08-2015 |
372099000 | Reflector | 31 |
20080212639 | Broadband Laser Lamp with Reduced Speckle - The present invention is directed to a laser resonator emitting visible radiation with reduced speckle noise, wherein said optical resonator is formed by at least two mirrors at both ends of a visible radiation emitting lasing material, wherein that optical resonator enhances multimode operation, so that said visible radiation emitting lasing material emits a spectrally broadened visible radiation, wherein the enveloping function of said spectrally broadened visible radiation has a full width at half maximum (FWHW) within 1 nm to 15 nm. | 09-04-2008 |
20080304535 | Mirror Structure and Laser Device Comprising Such a Mirror Structure - For increasing the power emitted by surface emitting lasers and for improving the spatial coherence of the laser beam, emitted in particular by disk lasers, microchip lasers and VCSELs having a relatively wide emitting area, the invention proposes to select a low order transverse cavity mode by means of a mirror structure ( | 12-11-2008 |
20090003404 | Semiconductor laser element and method for producing same - A semiconductor laser element realizes a high COD light output in broader range of reflection factor at a facet with high reliability. A semiconductor laser element has a multi-layered reflection film formed on at least one end facet of a resonator. An optical path length of each layer of said multi-layered reflection film is determined by (2m−1)·λ/4, where λ is oscillation wavelength, and m is positive integer). A high-refractive-index layer and a low-refractive-index layer are alternately stacked starting from a first layer adjacent to said semiconductor. | 01-01-2009 |
20090028205 | DISPERSION COMPENSATOR, SOLID-STATE LASER APPARATUS USING THE SAME, AND DISPERSION COMPENSATION METHOD - A dispersion compensator which is compact, low loss, low cost, and highly stable, and yet capable of varying the dispersion compensation amount without changing the output position of an output beam. The dispersion compensator includes: a first and a second planar mirrors disposed parallel to each other, wherein at least either one of the mirrors has group velocity dispersion whose value varies according to the incident angle of light incident on the mirror; a mirror holding means rotatably holding the first and second mirrors in a direction in which the incident angle of light incident on the first mirror is changed while maintaining the parallel state of the mirrors; and a third mirror disposed so as not to be rotated with the first and second mirrors and reflects light reflected sequentially by the first mirror and the second mirror. | 01-29-2009 |
20090046756 | Optical Systems for Microarray Scanning - The invention provides a novel optical system for use in a microarray scanner, comprising an aperture-containing reflecting mirror comprising an aperture and a reflecting surface. The aperture of the aperture-containing reflecting mirror allows an excitation light to pass through, and the reflecting surface of the aperture-containing reflecting mirror allows emission light from a microarray to be reflected. The optical system may also comprises various other components such as laser generators, beam splitter, reflecting mirrors, excitation and emission light filters, excitation and emission objective lens, pinhole, and detector. The optical system described herein has high efficiency, high sensitivity, low background noise, structurally simple, and high versatility. | 02-19-2009 |
20090059993 | MONO-SLAB LASER CAVITY - A YAG/Nd:YAG block where an Nd:YAG block ends in a peak integrated inside a YAG block. The YAG block has reflective surfaces positioned at 45° to one another. The angled reflective surfaces serve as a “mirror” within the laser cavity to effectively increase the length of the cavity by a factor greater than 2. Fused to the output end of the laser cavity are a polarizer, an active/passive Q-switch, a one quarter waveplate and an output coupler. In operation, the laser cavity is pumped either from the side or the end of the cavity. The optical components of the present invention are bonded to form one optical ‘block’. All the components are prealigned during the crystal manufacturing process to form the optical laser cavity. The width of the cavity should be selected such that nearly all of the laser diode pump output is absorbed by the cavity. | 03-05-2009 |
20090092167 | MODE-LOCKED SHORT PULSE LASER RESONATOR AND SHORT PULSE LASER ARRANGEMENT - A mode-locked short pulse laser resonator including a pump laser beam input, a non-linear laser medium, a plurality of resonator mirrors as well as a first outcoupler mirror and a second outcoupler mirror, wherein the first outcoupler mirror is arranged for coupling out laser radiation having first spectral properties, and the second outcoupler mirror is arranged for coupling out laser radiation having second spectral properties which are different from the first spectral properties. | 04-09-2009 |
20090168830 | Optical transmission assembly - An optical transmission assembly consists of an upper cladding; a lower cladding; a specified width core formed between the upper cladding and the lower cladding; a surface light emitting device mounted on an upper surface of the upper cladding, a light emitting surface of the surface light emitting device facing the core; a reflective surface formed at a position in the core facing the light emitting surface of the surface light emitting device, and inclined in a longitudinal direction of the core; a shift area formed by which a beam from the light emitting surface of the surface light emitting device and the reflective surface are shifted in a width direction of the core relative to each other; and a light receiving device mounted on a lower surface of the lower cladding, a light receiving surface of the light receiving device facing the light emitting surface of the surface light emitting device through the shift area. | 07-02-2009 |
20090290613 | EXTERNAL CAVITY LASER ASSEMBLY INCLUDING EXTERNAL CHIRPED EXIT REFLECTOR FOR IMPROVED LINEARITY - An external cavity laser assembly includes an external chirped exit reflector configured to reduce changes in reflectivity, thereby improving linearity. The chirped exit reflector may be configured to provide a reflectivity profile with a substantially flat peak portion, for example, as compared to the reflectivity profile of a uniform period fiber Bragg grating. The chirped exit reflector may also be configured such that an optical cavity length of the external cavity laser is shorter for higher wavelengths, thereby reducing wavelength fluctuations and changes in reflectivity caused by wavelength fluctuations. | 11-26-2009 |
20090310641 | LASER LIGHT SOURCE, PLANAR LIGHT SOURCE, AND LIQUID CRYSTAL DISPLAY DEVICE - A laser light source, a surface light source and a liquid crystal display apparatus that can reduce speckle without relying upon mechanical vibrations. The laser light source ( | 12-17-2009 |
20100074296 | SOLID STATE LASER AND WAVELENGTH CONVERSION LASER - Two convex lenses ( | 03-25-2010 |
20100238966 | LIGHT SOURCE APPARATUS AND PROJECTOR - A light source apparatus includes: a light emitter; a pair of electrodes for driving the light emitter; and an external resonant cavity that reflects part of the light emitted from a light-exiting end surface of the light emitter. The light emitter includes an active layer that generates light, an internal resonant cavity, and a diffractive optical layer that diffracts light having a predetermined wavelength. The external resonant cavity includes an external mirror that reflects the light having the predetermined wavelength. The internal resonant cavity, the external resonant cavity, and the diffractive optical layer form a laser resonant cavity that allows the light generated in the active layer to achieve laser oscillation. | 09-23-2010 |
20110064113 | LASER LIGHT SOURCE - A laser light source | 03-17-2011 |
20110176574 | SOLID-STATE LASER DEVICE - A solid-state laser apparatus | 07-21-2011 |
20110274135 | Broadband Dispersion-Free Optical Filter Cavities Based on Dielectric Mirrors with Complementary Dispersion - A substantially dispersion-free optical filter cavity includes a first multilayer mirror and a second multilayer mirror, wherein each mirror includes layers of a less-refractive material and layers of a more-refractive material, the more-refractive material having a higher index of refraction than the less-refractive material. The mirrors are separated by a spacing, and the thickness of a plurality of the layers in the second multilayer mirror differ from corresponding layers in the first multilayer mirror to provide the cavity with complementary group-delay dispersion across the cavity with a phase difference within, e.g., ±0.015 rad across a range of wavelengths spanning at least, e.g., 50 nm. | 11-10-2011 |
20110280273 | PLASMON STABILIZED LASER DIODES - A device having a light cavity includes, at one end, a plasmonic reflector having a grating surface for coupling incoming light into traverse plasmon waves and for coupling the traverse plasmon wave into broaden light, the surface serving to redistribute light within the cavity, the reflector being well suited for use in laser diodes for redistributing filamental cavity laser light into spatially broaden cavity laser light for translating multimodal laser light into unimodal laser light for improved reliability and uniform laser beam creation. | 11-17-2011 |
20110310922 | LASER RESONATOR - One embodiment of a laser resonator comprises one or more laser resonator components, a container and an ozone generator. The laser resonator components include a non-linear crystal, a beam polarization combiner, an optical lens, a mirror and/or an optical grating. The container encloses the one or more laser resonator components. The ozone generator is configured to introduce ozone gas into the container. | 12-22-2011 |
20120183009 | HORIZONTAL CAVITY SURFACE EMITTING LASER DIODES, VERTICAL ILLUMINATED PHOTODIODES, AND METHODS OF THEIR FABRICATION - The horizontal cavity surface emitting laser includes a cavity structure portion including a stacked structure of a first conduction type clad layer, an active layer and a second conduction type clad layer stacked over a semiconductor substrate and causing light generated by the active layer to be reflected or resonated, an optical waveguide layer provided at part of the semiconductor substrate and guiding the light, a reflector provided in the optical waveguide layer, for reflecting the light and emitting the light from the back surface of the semiconductor substrate, and a condensing lens provided at the back surface thereof and focusing the reflected light. The back surface thereof has a groove provided with the condensing lens and a terrace-like portion disposed below the cavity structure portion and has a terrace shape with the cleavage direction along a longitudinal direction thereof provided along a cleavage direction of the semiconductor substrate. | 07-19-2012 |
20130028284 | LASER DEVICE - A laser device includes a substrate, a lower cladding layer on the substrate, an active layer on the lower cladding layer, an upper cladding layer on the active layer, and a second order diffraction grating in a layer above the active layer and having dimensions of at least 100 μm by 100 μm. The second order diffraction grating diffracts and directs light generated in the active layer in a direction generally perpendicular to the longitudinal direction of the upper cladding layer. A laser device further includes a first reflective film on a first end face of a resonator, and a second reflective film on a second end face of the resonator, the second end face being located at the opposite end of the resonator to the first end face. | 01-31-2013 |
20130121364 | LASER CAVITY WITH CENTRAL EXTRACTION BY POLARISATION FOR COHERENT COUPLING OF INTENSE INTRA-CAVITY BEAMS - The invention relates to a laser cavity with central extraction by polarisation for coherent coupling of intense intra-cavity beams. The laser cavity ( | 05-16-2013 |
20130208754 | LASER APPARATUS, COMPONENT, METHOD AND APPLICATIONS - A method for two-dimensional spatial (transverse) mode selection in waveguide and free-space laser resonators and associated laser systems employing said resonators. The invention is based on the cylindrical symmetry of the angular selectivity of reflecting volume Bragg gratings (R-VBGs) that are used as spectrally selective minors in resonators. Matching the divergence of a laser beam and the angular selectivity a reflecting volume Bragg grating can establish different losses for transverse modes of different orders, while not restricting the aperture of the laser resonator, and enables single mode operation for resonators that support a plurality of transverse modes. The invention provides a laser having increased brightness without a decrease of efficiency. | 08-15-2013 |
20130336351 | Polarization-Stable Surface-Emitting Laser Diode - The present invention relates to a surface-emitting laser diode with an active amplifying region ( | 12-19-2013 |
20140105239 | Reduction of Mode Hopping in a Laser Cavity - The laser cavity is positioned on a substrate and includes a cavity waveguide guiding a laser light signal between a gain medium and a partial return device. The partial return device receives the laser light signal from the cavity waveguide and returns a first portion of the laser light signal to the cavity waveguide. The partial return device transmits a second portion of the laser light signal to an output waveguide. The partial return device reflects different wavelengths of the laser light signal at different intensities. Additionally, the partial return device is configured such that when the most intense wavelength of the laser light signal reflected by the partial return device is the same as a wavelength of one of modes of the laser light signal, the mode with the next longest wavelength and the mode with the next shortest wavelength are each reflected by the partial return device at an intensity greater than 80% of the intensity of the most intensely reflected wavelength. | 04-17-2014 |
20140177665 | LASER - A laser includes a total reflective mirror, an output mirror, a discharge lamp, and an active laser medium. The total reflective mirror, the output mirror, and the discharge lamp define a resonant cavity. The active laser medium is filled in the resonant cavity. The total reflective mirror includes a body, a metal film, and at least one microstructure. The at least one microstructure is concaved from a first reflective surface of the total reflective mirror. The at least one microstructure has a depth and a lateral size, and both the depth and the lateral size are in a range from about 0.5λ to about 2λ, while λ is a working wavelength of the laser. | 06-26-2014 |
20140177666 | LASER - A laser includes a total reflective mirror, an output mirror, a discharge lamp, and an active laser medium. The total reflective mirror, the output mirror, and the discharge lamp define a resonant cavity. The active laser medium is filled in the resonant cavity. The total reflective mirror includes a microstructure. The microstructure is convex ring-shaped structure. The convex ring-shaped structure has a height and a width, and both the height and the width are in a range from about 0.5λ to about 2λ, while λ is a working wavelength of the laser. | 06-26-2014 |
20140177667 | LASER - A laser includes a total reflective mirror, an output mirror, a discharge lamp, and an active laser medium. The total reflective mirror, the output mirror, and the discharge lamp define a resonant cavity. The active laser medium is filled in the resonant cavity. The total reflective mirror includes a body, a metal film, and at least one microstructure. The at least one microstructure has a height and a lateral size, and both the height and the lateral size are in a range from about 0.5λ to about 2λ, while λ is a working wavelength of the laser. | 06-26-2014 |
20140269807 | SHORT GAIN CAVITY DISTRIBUTED BRAGG REFLECTOR LASER - A long wavelength, short cavity laser can include: an active region or gain cavity having a length from about 10 microns to about 150 microns; a gap region adjacent to the active region and having a gap length that is less than 30 microns or less than the length of the active region; and a distributed Bragg reflector (“DBR”) region having a grating with a kappa of at least about 200 cm | 09-18-2014 |
20140294034 | LASER - A laser includes a total reflective mirror, an output mirror, a discharge lamp, and an active laser medium. The total reflective mirror, the output mirror, and the discharge lamp define a resonant cavity. The active laser medium is filled in the resonant cavity. The total reflective mirror includes a microstructure. The microstructure is concave ring-shaped structure. The concave ring-shaped structure has a depth and a width, and both the depth and the width are in a range from about 0.5λ to about 2λ, while λ is a working wavelength of the laser. | 10-02-2014 |
20140355639 | METAMATERIAL STRUCTURES FOR Q-SWITCHING IN LASERS - Techniques described herein are generally related to metamaterial structures for Q-switching in laser systems. The various described techniques may be applied to methods, systems, devices or combinations thereof. Sonic described metamaterial structures may include a substrate and a first conductive layer disposed on a first surface of the substrate. A dielectric layer may be disposed on a first surface of the first conductive layer and a second conductive layer having a substantially symmetric geometric shape may be disposed on a first surface of the dielectric layer. The second conductive layer may cover a portion of the first surface of the dielectric layer. | 12-04-2014 |
20140355640 | DEVICE AND METHOD FOR PRODUCING COHERENT BI-COLOR LIGHT SOURCE - A device for producing a coherent bi-color light source, including: an array substrate, a first laser tube driven by a first direct current signal, a second laser tube driven by a modulation signal coupled by a microwave signal and a second DC signal, a half wave plate, a birefringent crystal, a first quarter wave plate, a partially reflecting plane mirror, and a second quarter wave plate. The first laser tube and the second laser tube are fixed on the array substrate. The half wave plate, the birefringent crystal, the first quarter wave plate, the partially reflecting plane mirror, and the second quarter wave plate are disposed in sequence in an emission direction of a laser beam emitted by the first laser tube. The second laser tube is disposed opposite to the birefringent crystal. | 12-04-2014 |
20170237233 | Vertical Microcavity With Confinement Region Having Sub-Wavelength Structures To Create an Effective Refractive Index Variation | 08-17-2017 |
372100000 | Prism | 5 |
20090016400 | MULTI-BEAM LASER APPARATUS - There is provided a multi-beam laser apparatus including: a laser beam source generating a beam; an incident lens disposed on a path of the beam; a beam splitter splitting the beam incident on the incident lens into a plurality of beamlets; and a beam path adjustor disposed on each of paths of the split beamlets to change the respective paths of the split beamlets. The multi-beam laser apparatus easily produces a plurality of beamlets and adjusts paths of the beamlets obtained by a prism to improve machinability quality and uniformity. | 01-15-2009 |
20110222574 | TWO-DIMENSIONAL WAVELENGTH-BEAM-COMBINING OF LASERS USING FIRST-ORDER GRATING STACK - A method and apparatus for two-dimensional wavelength beam combining of laser sources. In one example, an external cavity multi-wavelength laser includes an array of laser emitters each producing an optical beam having a specified wavelength, a grating stack comprising a plurality of first-order diffraction gratings arranged linearly in a first dimension, and a dispersive element. The laser further includes a cylindrical telescope that images the optical beams from the array of laser emitters onto the grating stack. A first cylindrical transform lens spatially overlaps the optical beams in a second dimension forming a first region of overlap at the grating stack. A second cylindrical transform lens spatially overlaps the optical beams from the grating stack in the first dimension forming a second region of overlap at the dispersive element. The dispersive element transmits a multi-wavelength output beam comprising the spatially overlapped optical beams from the array of laser emitters. | 09-15-2011 |
20130315275 | LASER APPARATUS - The present invention employs a laser apparatus including: a cavity provided with reflecting means and output means; a gain member placed on an optical path between the reflecting means and the output means; a wavelength dispersion mechanism that disperses a light beam passing through the optical path; and a wavelength selecting mechanism including a wedge prism which is movable relative to the optical path and changes a traveling direction of a light beam, the wavelength selecting mechanism being configured to change a wavelength of a light beam to be outputted from the output means by being given a gain by the gain member in accordance with a position of the wedge prism, the wavelength dispersion mechanism including a prism which is positioned on the optical path to allow a light beam traveling on the optical path to become incident on the prism at Brewster's angle. | 11-28-2013 |
20140092932 | LASER APPARATUS AND PHOTOACOUSTIC APPARATUS - A laser apparatus that allows selection of a wavelength of output light from a plurality of options. The laser apparatus includes: a resonator made up from an output mirror and reflection means having a plurality of reflective surfaces fixed in position; a laser medium disposed on an optical axis inside the resonator; branch means branching an optical path of a light beam formed on the optical axis when light oscillates in the laser medium into a plurality of optical paths having an end at one reflective surface of the reflection means, the branch means forming a first optical path coinciding with the optical axis when located out of the optical axis, and forming a branch path by moving the light of the optical axis parallel when located on the optical axis. | 04-03-2014 |
20150085893 | PRISM BEAM EXPANDER ADJUSTMENT APPARATUS AND METHOD FOR ADJUSTING THE SAME - An apparatus and method for adjusting prism beam expander. The prism beam expander adjustment apparatus has a light source, a baseplate, a precise rotary stage, support columns, a two-dimensional slide stage, the first 90-degree bellcrank lever, an indication light source, the second 90-degree bellcrank lever, an optical filter, a photodetector, a computer, and an assembly platform. Incidence angles of all prisms of a prism beam expander can be precisely demarcated and designed beam magnification is obtained with the preferred adjustment methods. The parallel of the prisms can be guaranteed by monitoring the pitching of the prisms in the adjustment process. As a result, the linewidth narrowing and cavity losses decreasing can be improved by application of the fixed prism beam expander. | 03-26-2015 |
372101000 | Lens or lens system | 14 |
20080232422 | Laser Radiation Source - A transmitter unit is described for an open path gas detector. The unit comprises: an enclosure having a window; and a coherent radiation transmitter, e.g. a tuneable laser diode transmitter, located within the enclosure and configured to direct a beam of radiation through the window. The window is slanted with respect to the axis of the beam emitted by the transmitter such that no radiation from the transmitter that is directly incident on the window is reflected by the window directly onto the transmitter. Thereby interference fringes within the emitted radiation are reduced. Alternatively, the window may be replaced by a lens followed by an aperture such that the beam emitted by the transmitter is focused onto the aperture, thereby forming a beam of radiation passing out of the enclosure. | 09-25-2008 |
20080240199 | TARGET ILLUMINATOR FOR NIGHT-VISION DEVICES - The invention relates to a target illuminator ( | 10-02-2008 |
20080267245 | Beam homogenizer, laser irradiation apparatus, and method for manufacturing semiconductor device - The present invention is to provide a beam homogenizer, a laser irradiation apparatus, and a method for manufacturing a semiconductor device, which can suppress the loss of a laser beam and form a beam spot having homogeneous energy distribution constantly on an irradiation surface without being affected by beam parameters of a laser beam. A deflector is provided at an entrance of an optical waveguide or a light pipe used for homogenizing a laser beam emitted from a laser oscillator. A pair of reflection planes of the deflector is provided so as to have a tilt angle to an optical axis of the laser beam, whereby the entrance of the optical waveguide or the light pipe is expanded. Accordingly, the loss of the laser beam can be suppressed. Moreover, by providing an angle adjusting mechanism to the deflector, a beam spot having homogeneous energy distribution can be formed at an exit of the optical waveguide. | 10-30-2008 |
20080279248 | LASER MACHINING APPARATUS - Provided is a laser machining apparatus. The laser machining apparatus includes: a laser oscillator emitting laser beams; a first dividing means on which the laser beams emitted from the laser oscillator are incident to be selectively divided so that the incident laser beams progress along at least one path from among a pair of first paths; a second dividing means on which the laser beams that passed through any one of the first paths are incident to be selectively divided so that the incident laser beams progress along at least one path from among a pair of second paths; a third dividing means on which the laser beams that passed through the other one of the first paths are incident to be selectively divided so that the incident laser beams progress along at least one path from among a pair of third paths; four pairs of scanners on which the laser beams that passed through the first, second, and third dividing means are incident to each be deflected onto desired positions on a substrate so as to be processed; and a scan lens on which the laser beams that passed through the four pairs of scanners are incident to be collected on a spot having a predetermined diameter and irradiated onto the substrate. | 11-13-2008 |
20080304536 | High Intensity Laser or Diode-Based Lighting Apparatus Having Integrated Optics - A high intensity lighting apparatus ( | 12-11-2008 |
20090046757 | Laser irradiation apparatus, laser irradiation method, and manufacturing method of semiconductor device - An object is to provide a laser irradiation apparatus and a laser irradiation method with which positions of crystal grain boundaries generated at the time of laser crystallization can be controlled. Laser light emitted from a laser | 02-19-2009 |
20090059994 | Laser System for Medical and Cosmetic Applications - A laser system for medical and cosmetic applications has an optical delivery system for guiding a laser beam to a target surface, wherein the optical delivery system has an external optical element facing toward the target surface. A mechanical filter in the form of a protective screen for shielding the external optical element from particles ejected away from the target surface by the laser beam is arranged at an exit side of the external optical element. The protective screen has structural elements that delimit screen openings. The laser system has spacers that maintain a spacing of the protective screen relative to the target surface. | 03-05-2009 |
20090110020 | LIGHT EMITTING SYSTEM - A light emitting system is disclosed, including a light generator, a complex lens and an activating unit. The light generator provides a light beam emitted in a first direction in parallel to an optic axis. The complex lens, disposed on a path of the light beam, includes a plurality of micro structures for refracting the light beam. The activating unit includes an activating member coupled to the complex lens. The activating member activates the complex lens with an activation frequency to reciprocally move in a second direction alternate to the first direction. By the disposition of the complex lens, the energy of the light beam is uniformly distributed. Additionally, speckle produced by the light beam is reciprocally moved within an area by the activating unit, creating a photogene reaction, to successfully eliminate existence of the speckle. | 04-30-2009 |
20090154518 | LASER BEAM TRANSFORMER AND PROJECTOR - An original laser-radiation beam having a symmetrical M | 06-18-2009 |
20090252192 | REDUCED FEEDBACK OPTICAL TRANSMITTER - A device including a laser with reduced feedback. | 10-08-2009 |
20100150201 | LASER SYSTEM - A laser system including an optical cable jumper with input and output terminals, and a laser gun, wherein the optical jumper transmits a laser beam from a bundle-type optical cable connected to an input terminal thereof to a single-type optical cable connected to an output terminal thereof. The laser gun is connected to the single-type optical cable at a rear of the optical cable jumper to illuminate the laser beam to a target object. | 06-17-2010 |
20120189032 | ILLUMINATING APPARATUS, PATTERN INSPECTION APPARATUS, AND METHOD OF FORMING ILLUMINATING LIGHT - An illuminating apparatus includes a rotating phase plate having a height equal to or less than a wavelength of light from a light source and including a plurality of randomly arranged step regions so as to change a phase of light from the light source by allowing the light beam to pass therethrough; and a fly's eye lens including an array of a plurality of lenses configured to pass the light beam passed through the rotating phase plate, wherein a portion in which a product of a maximum size of the plurality of step regions and an optical magnification from the rotating phase plate to a plane of incidence of the fly's eye lens is equal to or less than an arrangement pitch of the plurality of lenses and a portion in which the product is larger than the arrangement pitch of the plurality of lenses are mixed. | 07-26-2012 |
20130182739 | Twin-Beam Laser Module For Use With A Laser Sight - A twin-beam laser module has a housing having a first cylindrical space and a second cylindrical space, which are adjacent and parallel in axial direction to each other. A first laser assembly is directly secured inside the first cylindrical space to output a first laser beam, and an outer cylindrical casing is positioned inside the second cylindrical space. A second laser assembly is provided inside the outer cylindrical casing to output a second laser beam, and an adjustment apparatus adjusts the orientation of the outer cylindrical casing so as to align the first laser beam and the second laser beam to be parallel to each other. | 07-18-2013 |
20150049779 | SEMICONDUCTOR LASER OPTICAL DEVICE - Disclosed is a semiconductor laser optical device that can suppress the occurrence of crosstalk light to obtain high collimating efficiency and is relatively inexpensive and compact. This semiconductor laser optical device includes: a laser source that includes a semiconductor laser element; a first collimator lens that is provided on a laser light emission side of the laser source and collimates a light component diverging in a fast-axis direction of laser light emitted from the laser source; and a second collimator lens that is provided on an emission side of the first collimator lens and collimates a light component diverging in a slow-axis direction of light emitted from the first collimator lens. The first collimator lens has a function of making light of which spreading in the slow-axis direction is suppressed incident on the second collimator lens. | 02-19-2015 |
372102000 | Grating | 13 |
20080253424 | Use of Volume Bragg Gratings For The Conditioning Of Laser Emission Characteristics - Apparatus and methods for altering one or more spectral, spatial, or temporal characteristics of a light-emitting device are disclosed. Generally, such apparatus may include a volume Bragg grating (VBG) element that receives input light generated by a light-emitting device, conditions one or more characteristics of the input light, and causes the light-emitting device to generate light having the one or more characteristics of the conditioned light. | 10-16-2008 |
20080267246 | Apparatus And Methods For Altering A Characteristic Of A Light-Emitting Device - Apparatus and methods for altering one or more spectral, spatial, or temporal characteristics of a light-emitting device are disclosed. Generally, such apparatus may include a volume Bragg grating (VBG) element that receives input light generated by a light-emitting device, conditions one or more characteristics of the input light, and causes the light-emitting device to generate light having the one or more characteristics of the conditioned light. | 10-30-2008 |
20090028206 | Method of Increasing the Laser Damage Threshold of Diffraction Gratings - For increasing the laser damage threshold (LDT) of diffraction gratings, particularly of multi-layer dielectric diffraction (MLD) gratings, the invention proposes a method for treating a diffraction grating to be used in a high energy laser apparatus having a first laser with the steps of providing the diffraction grating, providing a second treatment laser and irradiating the diffraction grating with laser light from the second treatment laser until the laser damage threshold of the diffraction grating has increased. | 01-29-2009 |
20090028207 | Mobile Charge Induced Periodic Poling And Device - Devices and methods are disclosed for realizing a high quality bulk domain grating structure utilizing mobile charges that are generated by means of photo-excitation in a substrate. An effect of light exposure (UV, visible, or a combination of wavelengths) is to generate photo-induced charges. The application of a voltage across the substrate combined with the application of light exposure causes a photo-induced current to flow through the substrate. The photo-induced charges (behaving like virtual electrode inside the material) and the photo-induced current result in both reduction of the coercive field required for domain inversion in the material and improve realization of the domain inversion pattern, which previously has not been possible at room temperature. | 01-29-2009 |
20090110021 | Plasmon stabilized unimodal laser diodes - A device having a light cavity includes, at one end, a plasmonic reflector having a grating surface for coupling incoming light into traverse plasmon waves and for coupling the traverse plasmon wave into broaden light, the surface serving to redistribute light within the cavity, the reflector being well suited for use in laser diodes for redistributing filamental cavity laser light into spatially broaden cavity laser light for translating multimodal laser light into unimodal laser light for improved reliability and uniform laser beam creation. | 04-30-2009 |
20090201967 | LASER DEVICE COMPRISING A DIFFRACTION GRATING AND COUPLED LASER RESONATORS - The present invention provides a laser device wherein one diffraction grating and at least two reflectors are arranged such that two coupled resonators are formed for the light path. This laser device is an arrangement forming a first optical resonator comprising a first and a second reflector including in its light path the diffraction by the grating. The second reflector is arranged perpendicularly to an order of diffraction of the grating. Coupled with the first resonator (A), there is provided a second mirror-reflective resonator between a mirror-reflective surface of the grating and the second reflector. In the case of the grating having an even number of ports, the second resonator needs completion by a third reflector arranged to reflect light from specular reflection by the grating back to the grating. For gratings having an odd number of ports, the second reflector is arranged in parallel to the grating. The laser medium is preferably arranged between the first reflector and the grating. | 08-13-2009 |
20090207876 | Laser Source for the Infrared Wavelength Range - The present invention relates to a laser source for the infrared wavelength range which comprises a pump laser ( | 08-20-2009 |
20140029641 | Chirped Bragg Grating Elements - Apparatus and methods for altering one or more spectral, spatial, or temporal characteristics of a light-emitting device are disclosed. Generally, such apparatus may include a volume Bragg grating (VBG) element that receives input light generated by a light-emitting device, conditions one or more characteristics of the input light, and causes the light-emitting device to generate light having the one or more characteristics of the conditioned light. | 01-30-2014 |
20140269808 | RAPIDLY TUNABLE LASER SOURCE ASSEMBLY WITH LONG STROKE GRATING MOVER - A laser assembly ( | 09-18-2014 |
20140321494 | MIDDLE-INFRARED VOLUMETRIC BRAGG GRATING BASED ON ALKALI HALIDE OR ALKILI-EARTH FLOURIDE COLOR CENTER CRYSTALS - Volumetric Bragg grating devices that operate in middle-infrared region of the spectrum and methods for producing such devices are described. Such a Volumetric Bragg grating device can be produced by forming a plurality of color centers within an alkali-halide or an alkali-earth fluoride crystal and selectively removing a subset of the plurality of color centers to produce variations in refractive index of the alkali-halide or alkali-earth fluoride crystal in the middle-infrared spectral region and to thereby produce a volumetric Bragg grating that operates in middle-infrared spectral range. | 10-30-2014 |
20140321495 | INTEGRATED SUB-WAVELENGTH GRATING ELEMENT - An integrated sub-wavelength grating element includes a transparent layer formed over an optoelectronic substrate layer and a sub-wavelength grating element formed into a grating layer disposed on said transparent layer. The sub-wavelength grating element is formed in alignment with an active region of an optoelectronic component within the optoelectronic substrate layer. The sub-wavelength grating element affects light passing between said grating element and said active region. A method for forming an integrated sub-wavelength grating element is also provided. | 10-30-2014 |
20140348200 | MIDDLE-INFRARED VOLUMETRIC BRAGG GRATING BASED ON ALKALI HALIDE COLOR CENTER CRYSTALS - Volumetric Bragg grating devices that operate in middle-infrared region of the spectrum and methods for producing such devices are described. Such a Volumetric Bragg grating device can be produced by forming a plurality of color centers within an alkali-halide crystal and selectively removing a subset of the plurality of color centers to produce variations in refractive index of the alkali-halide crystal in the middle-infrared spectral region and to thereby produce a volumetric Bragg grating that operates in middle-infrared spectral range. | 11-27-2014 |
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 |
372103000 | Window, aperture, and mask | 4 |
20080267247 | Laser System - The invention relates to laser system with a laser source and an articulated arm. The articulated arm has an optical arrangement for guiding a laser beam from the laser source along an optical path in the articulated arm to a target location. Within the optical path at least one crossing area (focus or focal point) of the laser beam is provided. The optical arrangement has at least one optical cell with an input window and an output window for passing the laser beam therethrough, wherein the crossing area is positioned within the optical cell. The optical cell has a gas fill with an energy threshold for ionization that is increased in comparison to that of ambient air. | 10-30-2008 |
20100054297 | OPTICAL ELEMENT FOR GAS LASER AND GAS LASER APPARATUS USING THE SAME - At least either of the light entering plane or the light exiting plane is parallel to the (111) crystal face of the CaF | 03-04-2010 |
20120099615 | LASER INDUCED THERMAL IMAGING MASK, LASER IRRADIATION APPARATUS INCLUDING THE SAME, AND METHOD OF MANUFACTURING ORGANIC LIGHT EMITTING DEVICE BY USING THE SAME - Provided are a laser induced thermal imaging (LITI) mask, a laser irradiation apparatus including the LITI mask, and a method of manufacturing an organic light emitting device by using the LITI mask. The LITI mask including an opening corresponding to a pixel region and an opening corresponding to an edge of a pixel is used to form an organic layer in an upper portion of a substrate of an organic light emitting device, thereby transferring the organic layer to an edge of the pixel region. | 04-26-2012 |
20140044144 | Vertical Cavity Surface Emitting Laser Nanoscope for Near-field Applications - A vertical cavity surface emitting laser (VCSEL) nanoscope is provided. The VCSEL nanoscope combines a VCSEL with a nano-scale aperture using a support member to separate the aperture from the VCSEL emission face. The resulting device is a useful near-field probe with a wide variety of applications. | 02-13-2014 |
372106000 | Polarizer | 2 |
20110268145 | OPTICAL COMPONENT - At least one surface of a plate member made of ZnSe has a concave-and-convex structure in which a projecting section and a groove section are formed at a spatial cycle equal to or lower than the wavelength of carbon dioxide laser light to thereby provide a substrate body. On a surface of the concave-and-convex structure, an antireflection film is layered that has a lower refractive index than that of ZnSe to carbon dioxide laser light. By this configuration, the polarization state of transmitted carbon dioxide laser light is converted from a linear polarization to a circular polarization or the like. | 11-03-2011 |
20120128023 | SWITCHABLE DUAL WAVELENGTH SOLID STATE LASER - The present invention relates to a switchable dual wavelength solid state laser with a solid state gain medium ( | 05-24-2012 |