Class / Patent application number | Description | Number of patent applications / Date published |
372107000 | Mirror support or alignment structure | 27 |
20080267248 | Exposure device - The present invention presents an exposure device, which includes an optical source for emitting a UV ray, a lighting system for shaping the UV ray into a collimated light beam, an aperture member for producing rectangular first and second light beams based on the light beam from lighting system by using the first and second rectangular windows, first and second spatial light modulators for spatially modulating the first and second light beams, respectively, and first and second projection lighting systems for guiding the modulated first and second light beams to the object. | 10-30-2008 |
20080298424 | System and Method for Displaying Images - A system and method for reducing visible speckle in images displayed using coherent light. In an embodiment, a system for displaying images includes a light source to produce coherent light, an array of light modulators optically coupled to the light source and positioned in a light path of the light source after the light source, and a controller electronically coupled to the array of light modulators and to the light source. The light source includes a coherent light source, and a first digital micromirror device (DMD) having a first plurality of micromirrors. The first DMD is optically coupled to the coherent light source and positioned in a light path of the coherent light source after the coherent light source. The first DMD directs coherent light by moving the micromirrors of the first plurality of micromirrors through a first range of tilt angles substantially continuously. | 12-04-2008 |
20090034577 | THERMAL DISTORTION COMPENSATION FOR LASER MIRRORS - A laser mirror assembly is disclosed with improved pointing stability. An elongated mirror includes a concave reflecting portion. A pair of elongated planar portions extend parallel to the concave reflecting portion on either side thereof. The planar portions are stepped down from the reflecting portion. The mirror is formed from copper. A pair of stainless steel strips are connected to planar portions. The bimetallic effect between the copper mirror and the stainless steel strips operates to counteract the warping of the mirror due to differential heating effects which arise during operation. In an alternate embodiment, a pair of aluminum strips are mounted on the rear surface of the mirror. | 02-05-2009 |
20090034578 | Laser irradiating method and device for the same - Because a focal distance of a condenser lens is changed due to a change in temperature, when irradiation of a laser beam is restarted after the irradiation has stopped, it takes a long time to restore a temperature of the cooled lens to a given temperature, and the operating efficiency is deteriorated. A first mirror | 02-05-2009 |
20090092168 | LASER MODULE AND OPTICAL PICKUP DEVICE - A laser module includes a stem provided with a device mounting structure; a light emitting device mounted onto the stem by use of the device mounting structure a tubular cap fixed to the stem in the state of surrounding the light emitting diode and provided with an aperture through which to pass laser light emitted by the light emitting device; and a light transmitting plate fixed, by use of a bonding material, to an inside surface of the cap in the state of closing the aperture. An annular projection projecting to the inside of the cap in the optical axis direction of the laser light is provided at a peripheral edge part of the aperture of the cap, and the light transmitting plate is fixed to the inside surface of the cap inclusive of the projection by use of the bonding material. | 04-09-2009 |
20090175308 | Integrated pod optical bench design - In an integrated gimbal and High-Powered Multiband Laser (HPMBL) for use in an infrared countermeasure apparatus in a pod mounted on an aircraft, the improvement comprises an optical bench that connects the optical path between side-by-side mounted gimbal and high power laser; and a kinematic mounting system that prevents optical bench bending. | 07-09-2009 |
20090190624 | Optical Packages and Methods for Aligning Optical Packages - An optical package includes a semiconductor laser, a wavelength conversion device and a MEMS-actuated mirror oriented on a base module to form a folded optical pathway between an output of the semiconductor laser and an input of the wavelength conversion device. An optical assembly is located in a mechanical positioning device and the mechanical positioning device is disposed on the base module along the optical pathway such that the beam of the semiconductor laser passes through the optical assembly, is reflected by the MEMS-actuated mirror back through the optical assembly and into the waveguide portion of the wavelength conversion device. The MEMS-actuated mirror is operable to scan the beam of the semiconductor laser over the input of the wavelength conversion device. The optical assembly may be adjusted along the optical pathway with the mechanical positioning device to focus the beam into the waveguide portion of the wavelength conversion device. | 07-30-2009 |
20090213894 | Portable laser head - A portable laser head has a single-piece holder configured with a plurality of spaced-apart nests. The nests are arranged to receive at least a non-linear frequency converter, a V-shaped beam splitter and a dump collimator. Alternatively, the holder has multiple nests configured to receive an input collimator and output focusing optics unit in addition to the non-linear frequency converter, V-shaped beam splitter and dump collimator. The holder is characterized by small dimensions allowing for self-alignment of the above-referred components. | 08-27-2009 |
20090245318 | Quickly replaceable processing-laser modules and subassemblies - Pre-aligned, kinematically mounted modules including processing lasers, beam trains, and individually calibrated control beams are quickly and easily replaced on subassembly bases with minimal in situ alignment, and can maintain working-spot position to micron tolerances over ambient temperature variations of ±10° C. Subassembly bases, with features for kinematically mating to a plurality of pre-aligned laser modules and to a platform base incorporated in the laser processing tool, enable multi-module subassemblies to be quickly replaced with spare subassemblies of the same type, or swapped for subassemblies of a different type. The mating features and reversible locks are designed to mitigate thermal effects that are often a dominant cause of alignment drift in processing lasers. | 10-01-2009 |
20090257468 | COMMUNICATION DEVICES THAT INCLUDE A COHERENT LIGHT SOURCE CONFIGURED TO PROJECT LIGHT THROUGH A TRANSLUCENT PORTION OF A HOUSING AND METHODS OF OPERATING THE SAME - A communication device includes communication circuitry, a coherent light source, and a housing that at least partially surrounds the communication circuitry and the coherent light source. The housing includes a translucent portion and the coherent light source is configured so as to project light through the translucent portion of the housing. | 10-15-2009 |
20090285256 | METHOD FOR FORMING A LASER RESONATOR SO THAT OPTICAL COMPONENTS OF THE LASER RESONATOR ARE ALIGNED - A laser resonator and method for forming the laser resonator are provided. The method comprises placing a housing for the laser resonator in an alignment fixture, attaching a bond plate to an optical component of the laser resonator, attaching a first end of an alignment arm to the bond plate attached to the optical component, attaching a second end of the alignment arm to the alignment fixture such that the optical component is disposed over the housing, aligning, via the alignment fixture and the alignment arm, the optical component relative to the housing, and bonding the aligned optical component to the housing. The first end of the alignment arm may removed once the aligned optical component is bonded to the housing. | 11-19-2009 |
20120106587 | VERTICAL CAVITY SURFACE EMITTING LASER AND IMAGE FORMING APPARATUS - Provided is a vertical cavity surface emitting laser that includes a plurality of laminated semiconductor layers including an active layer and that oscillates at a wavelength λ | 05-03-2012 |
20120213243 | VERTICAL CAVITY SURFACE EMITTING LASER WITH UNDOPED TOP MIRROR - A VCSEL with undoped top mirror. The VCSEL is formed from an epitaxial structure deposited on a substrate, and a periodically doped conduction layer is coupled to the undoped top minor. A periodically doped spacer layer is coupled to an active region. An undoped bottom minor coupled to the periodically doped spacer layer. A first intracavity contact is coupled to the periodically doped conduction layer and a second intracavity contact is coupled to the periodically doped spacer layer. | 08-23-2012 |
20120243570 | Integrated POD Optical Bench Design - In an integrated gimbal and High-Powered Multiband Laser (HPMBL) for use in an infrared countermeasure apparatus in a pod mounted on an aircraft, the improvement comprises an optical bench that connects the optical path between side-by-side mounted gimbal and high power laser; and a kinematic mounting system that prevents optical bench bending. | 09-27-2012 |
20120275482 | Silicon-Based Lens Support Structure For Diode Laser - An apparatus that includes a silicon-based support member and a silicon-based alignment structure is provided. The silicon-based alignment structure is received on a receiving surface of the support member. The alignment structure includes a first surface and a second surface parallel to and facing the first surface with a gap defined therebetween and configured to receive a light-emitting device inside the gap with the first surface and the second surface in contact with the light-emitting device such that, when a collimating rod lens is disposed on the alignment structure and over the gap, a longitudinal center line of the collimating rod lens is not aligned with a mid-point of the gap. | 11-01-2012 |
20130094534 | LASER CRYSTALLIZATION APPARATUS AND LASER CRYSTALLIZATION METHOD USING THE SAME - A laser crystallization device is provided, which includes a vibration device vibrating a laser beam along its long axis, wherein a vibration frequency at which the laser beam vibrates is satisfied by Equation 1 below. | 04-18-2013 |
20130188664 | ULTRA-BROADBAND GRAPHENE-BASED SATURABLE ABSORBER MIRROR - An Ultra-broadband graphene-based saturable absorber mirror (graphene SAM) used as passive mode locker and Q-switch of lasers was invented. The graphene SAM comprises an optical substrate, an Aurum(Au) reflection film and graphene layer(s). Combining the ultra-broadband high reflectivity of Au film with ultra-broadband saturable absorption of graphene, the graphene SAM could be used as saturable absorber for passive mode locking and Q-switching over an ultra-wide spectral range from near-infrared to mid-infrared spectral region. Compared to semiconductor saturable absorber mirror (SESAM), the graphene SAM has the advantages of ultra-broadband operation, low linear loss, easy fabrication, low cost, and enabling mass production. This invented graphene SAM will have a wide prospect of application. | 07-25-2013 |
20130272337 | VERTICAL-CAVITY SURFACE-EMITTING LASER SYSTEM AND METHOD FOR FABRICATING THE SAME - A vertical cavity surface emitting laser (VCSEL) system and method of fabrication are included. The VCSEL system includes a first portion comprising a first mirror and a gain region to amplify an optical signal in response to a data signal, the first portion being fabricated on a first wafer. The system also includes a second portion comprising a second mirror that is partially-reflective to couple the optical signal to an optical fiber. The second portion can be fabricated on a second wafer. The system further includes a supporting structure to couple the first and second portions such that the first and second mirrors are arranged as a laser cavity having a predetermined length to resonate the optical signal. | 10-17-2013 |
20140211824 | LASER OSCILLATOR INCLUDING INCLINATION MEASURING UNIT FOR MEASURING INCLINATION AMOUNT OF INSIDE MIRROR - According to the present invention, a laser oscillator includes at least two mirrors and mirror holding units for holding the at least two mirrors such that the two mirrors can be inclined with respect to an optical axis. Each of the mirror holding units includes two inclination adjustment units configured to incline corresponding mirror, a pivot point portion configured to function as a pivot point when the mirror is inclined, and one inclination measuring unit configured to measure an inclination amount of the mirror inclined by the two inclination adjustment units. The inclination measuring unit is disposed in a region other than on straight lines connecting the pivot point portion with each of the inclination adjustment units. | 07-31-2014 |
20140211825 | MIRROR ADJUSTMENT METHOD AND MIRROR ADJUSTING SYSTEM ADJUSTING SLANTS OF MIRRORS PROVIDED AT LASER OSCILLATOR - The slant of a first mirror ( | 07-31-2014 |
20140301422 | MICROCRYSTAL LASER FOR GENERATING LASER PULSES - A microcrystal laser for generating laser pulses has a laser resonator which has a laser medium arranged between two mirrors; and an arrangement for stabilizing the optical path length is provided. The laser resonator has a saturable absorber medium for pulse generation. | 10-09-2014 |
20140369374 | Dynamical Fabry-Perot Tuneable Filter Device - A Fabry-Pérot tuneable filter device is described with reflecting elements separated by an optical path length to form an optical resonator cavity. A first actuator means is directly or indirectly coupled with a first reflecting element. And the first actuator means is configured to modulate the optical path length between first and second reflecting elements by a modulation amplitude to thereby sweep the optical resonator cavity through a band of optical resonance frequencies with a sweep frequency of 70 kHz or more. And the mechanical coupling between selected elements of the arrangement is sufficiently low such that when operated at the sweep frequency, the selected elements act as a system of coupled oscillating elements. In addition or alternatively, the first actuator means is directly or indirectly coupled with the first reflecting element so as to substantially drive the first reflecting element only. | 12-18-2014 |
20150036711 | SURFACE EMITTING LASER, SURFACE-EMITTING-LASER ARRAY, AND IMAGE FORMING APPARATUS - The present invention provides a surface emitting laser that provides a sufficient optical output and is suitable as a light source intended for electrophotographic apparatuses, and a surface-emitting-laser array and an image forming apparatus each including the surface emitting laser. The surface emitting laser includes a first stepped structure on a front surface of a front mirror. In the first stepped structure, a difference L between an optical path length in a first area and an optical path length in a second area satisfies the following expression: | 02-05-2015 |
20150071322 | LASER WITH NON-LINEAR OPTICAL LOOP MIRROR - In a laser ( | 03-12-2015 |
20150131692 | SEMICONDUCTOR LASER MODULE - A semiconductor laser module | 05-14-2015 |
20150131693 | LASER FORMING PROCESS - A method for controlling the parallelism of first and second surfaces that define an optically resonant cavity is disclosed. The surfaces are separated by a first separation that is based on a support that holds the first surface relative to the second surface. The support comprises a first material and includes one or more regions in which the material stress of the first material is heat tuned to locally induce a stress gradient that results in a localized deformation. By controlling the locations and amounts of one or more localized deformation regions, the orientation of the first surface relative to the second surface is controlled. | 05-14-2015 |
20150139264 | SAGNAC LOOP MIRROR BASED LASER CAVITY ON SILICON PHOTONICS PLATFORM - We have demonstrated a novel Sagnac loop and micro-ring based laser cavity which is simple and reliable, with accurately controlled reflectivity and negligible excess loss. The resonant wavelength of a 2 μm radius micro-ring is shown to be lithographically controlled to a standard deviation of 3.6 nm. Both C- and O-Band lasers based on Sagnac loop mirror and micro-ring cavity have been demonstrated. The lasers are shown to be able to be modulated at 40 Gb/s. | 05-21-2015 |