| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 359278000 | Frequency modulation | 13 |
| 20090190200 | OPTICAL DEVICE AND OPTICAL SYSTEM - There is provided an optical device including a plurality of polarizers that are arranged along a propagation direction of incident light, where the plurality of polarizers have transmission axes of substantially the same direction, a phaser that is provided between the plurality of polarizers, where the phaser has a retarded-phase axis forming a predetermined angle with the transmission axes of the plurality of polarizers, and a phase modulator that is provided adjacent to the phaser along the propagation direction, where the phase modulator has a retarded-phase axis of substantially the same direction as the retarded-phase axis of the phaser. Here, a phase difference generated in the incident light by the phase modulator is temporally adjusted such that the optical device transmits light in different wavelength ranges at different timings. | 07-30-2009 |
| 20090244684 | Systems and methods for speckle reduction - A laser projection system including a system controller, a visible light source, and a light disrupting element is provided. The visible light source includes at least one laser and the laser projection system is programmed to scan a scanned optical signal of the visible light source across a plurality of image pixels. The scanned optical signal comprises a low spatial frequency beam and a high spatial frequency beam, and the low spatial frequency beam generates a low spatial frequency image having spatial frequencies below a spatial frequency threshold, the high spatial frequency beam generates a high spatial frequency image having spatial frequencies that are above the spatial frequency threshold, and the scanned laser image is a sum of the high spatial frequency image and the low spatial frequency image. The low spatial frequency beam is altered by an out of focus light disrupting element. | 10-01-2009 |
| 20100067091 | METAMATERIALS - One exemplary metamaterial is formed from a plurality of individual unit cells, at least a portion of which have a different permeability than others. The plurality of individual unit cells are arranged to provide a metamaterial having a gradient index along at least one axis. Such metamaterials can be used to form lenses, for example. | 03-18-2010 |
| 20100073755 | WAVELENGTH CONVERSION DEVICE, LASER APPARATUS, IMAGE FORMING APPARATUS, AND DISPLAY APPARATUS - A wavelength conversion device enabling the stable output of high-power harmonic light is disclosed. The wavelength conversion device includes MgO:LiNbO | 03-25-2010 |
| 20110063711 | SYSTEM AND METHOD FOR GENERATING OPTICAL RADIATION OF CONTROLLABLE SPECTRAL CONTENT - An optical spectrum generator is disclosed, which is based on generating conjugate optical frequencies via the use of two or more nonlinear interactions, where filters are used to select the conjugate output of the preceding nonlinear interaction as the input to the following nonlinear interaction. The cascaded nonlinear interaction is seeded with an incoming optical beam and pumped with multiple pump beams. The conjugate output of the last nonlinear interaction can be fed-back to the input of the first nonlinear interaction thus creating a recirculating path. An add-drop multiplexer is implemented for efficiently combining the pump beams with conjugate beams. The generated output frequencies are related to the difference in frequency between the pumps which can be changed as a function of time to create a time-varying output frequency. The magnitude of the variation in output frequency can be magnified by recirculating the signal through the system multiple times. | 03-17-2011 |
| 20110116154 | ELECTRICALLY-TUNABLE OPTICAL DEVICES - A device comprising: two mutually immiscible conductive liquids arranged to form an interface therebetween; a plurality of nanoparticles localised at the said interface, the said nanoparticles each having a first region formed of a semiconductor having a first bandgap, the first region being surrounded by a second region having a second bandgap, the second bandgap being larger than the first bandgap; and means for applying an electric field to the said nanoparticles and thus, through the Stark effect, altering the optical absorption or emission characteristics of the nanoparticles. | 05-19-2011 |
| 20120154893 | METHOD FOR CALIBRATION OF OPTICALLY VARIABLE FILTER ARRAY APPARATUS - In a wavelength selection element employed in an optically variable filter array apparatus, pixels in a line form are placed into a light reflection state so that wavelength-scanned light can be incident on the optically variable filter array apparatus. On the basis of the wavelength of scanned reflection light and the location of the pixel in a light reflection state at a timing of acquisition of output, the relationship between the x coordinate of the wavelength selection element and wavelength is determined. This makes it possible to achieve calibration of the optically variable filter array apparatus capable of selection of a desired wavelength with respect to a desired channel from multi-channel WDM light. | 06-21-2012 |
| 20130063803 | LASER-PRODUCED PLASMA EUV SOURCE WITH REDUCED DEBRIS GENERATION - A method and apparatus for generating extreme ultraviolet (EUV) light is disclosed. The method may comprise non-thermally ablating a target material utilizing a first laser beam. The first laser beam may be configured for ejecting a portion of the target material in a non-thermal manner to create a plume. The method may further comprise irradiating the plume utilizing a second laser beam to produce a high-temperature plasma for EUV radiation. | 03-14-2013 |
| 20130229701 | Integration of components on optical device - The optical device includes a Fabry-Perot laser positioned on a base. A modulator is also positioned on the base so as to receive the output from the laser. The modulator is a Franz-Keldysh modulator that uses the Franz-Keldysh effect to modulate light signals. The laser and modulator are configured such that the modulator modulates the output from the laser and also such that the temperature dependence of the modulator tracks the temperature dependence of the laser. | 09-05-2013 |
| 20130258441 | TUNABLE PHOTONIC CRYSTAL COLOR FILTER AND COLOR IMAGE DISPLAY APPARATUS INCLUDING THE SAME - A tunable photonic crystal color filter and a color image display apparatus including the same. A tunable photonic crystal color filter includes a first electrode, a second electrode on the first electrode, and a medium disposed between the first electrode and the second electrode. The medium includes charged nanoparticles having a lattice structure in the medium. The first electrode and the second electrode are formed of a material having a difference between an oxidative over-potential and a reductive over-potential. | 10-03-2013 |
| 20140078570 | TUNABLE PHOTONIC CRYSTAL COLOR FILTERS AND COLOR IMAGE DISPLAY DEVICES - Tunable photonic crystal color filters, and color image display devices including the same, include a first electrode, a second electrode facing the first electrode, a medium between the first electrode and the second electrode, nano particles distributed in the medium in a lattice structure and charged, and an ion spread preventing layer over a surface of at least one of the first electrode and the second electrode. | 03-20-2014 |
| 20140118815 | HEAT BLOCKING SYSTEM UTILIZING PARTICULATES - A multi-layered coating system for reflecting infrared waves is disclosed. The multi-layered coating system comprises a layer one positioned above a substrate, wherein the layer one includes a plurality of well separated spherical particulates of radius a | 05-01-2014 |
| 20140218782 | WAVELENGTH TUNABLE LIGHT SOURCE - Provided is a wavelength tunable light source including a super luminescent diode (SLD) generating lights in a predetermined wavelength band, a voltage generating unit generating first and second voltages, a first filter receiving the first voltage from the voltage generating unit, receiving the lights from the SLD, and transmitting, as second lights, lights corresponding to wavelengths separated by a free spectral range (FSR) from each other among the received lights, a second filter receiving the second voltage from the voltage generating unit, receiving the second lights from the first filter, and transmitting, as a third light, a light corresponding to one wavelength among the separated wavelengths among the received second light, and a reflective mirror disposed at an output end of the second filter and reflects the third light transmitted from the second filter. | 08-07-2014 |
