| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 359332000 | Dielectric optical waveguide type | 16 |
| 20090009854 | WAVELENGTH CONVERSION DEVICES - A wavelength conversion device | 01-08-2009 |
| 20090040598 | OPTICAL FIBER LIGHTING APPARATUS - An optical fiber lighting apparatus includes an exciting light source, a first optical fiber, a second optical fiber, a wavelength conversion unit, and a reflecting member. The first optical fiber guides the exciting light emitted from the exciting light source. The wavelength conversion unit receives the exciting light exiting from the first optical fiber to generate a wavelength-converted light having a wavelength different from that of the exciting light. The second optical fiber guides at least part of the wavelength-converted light generated by the wavelength conversion unit. The reflecting member reflects, of the reflected scattered light and/or the wavelength-converted light generated by the wavelength conversion unit, at least part of light that has not directly struck the incident region of the second optical fiber, toward the incident region of the second optical fiber. | 02-12-2009 |
| 20090067036 | NESTED WAVEGUIDES - A radiation source or detector including a nested waveguide structure is provided. A smaller waveguide provides wave guiding for radiation of shorter wavelength. The smaller waveguide is embedded within a larger waveguide that provides wave guiding for radiation of longer wavelength. Wavelength conversion between the shorter wavelength and the longer wavelength can be realized through a nonlinear process. | 03-12-2009 |
| 20090080063 | ARRAY WAVEGUIDE AND LIGHT SOURCE USING THE SAME - A light source comprises a light-emitting module configured to emit a first beam and an array waveguide configured to convert the first beam into a second beam. The light-emitting module includes a plurality of light-emitting units configured to emit the first beam, and the light-emitting units are positioned in an array manner. The array waveguide includes a ferroelectric crystal with a first polarization direction, a plurality of inverted domains positioned in the ferroelectric crystal and a plurality of wavelength-converting waveguides positioned in the ferroelectric crystal. The inverted domains have a second polarization direction substantially opposite to the first polarization direction, the wavelength-converting waveguides cross the inverted domains substantially in a perpendicular manner, and the inverted domains are configured to convert the first beam from the light-emitting module into second beam as the first beams propagate through the wavelength-converting waveguides. | 03-26-2009 |
| 20090207481 | Wavelength converter - Provided is a wavelength converter capable of generating a converted signal having a wavelength different from the wavelength of input light. The wavelength converter of the present invention comprises: (1) a pump light source for outputting pump light; (2) a light multiplexing part for multiplexing the input light and the pump light and outputting thus multiplexed light; (3) and a plurality of optical fibers connected together in cascade, allowing the passage of the input light and the pump light thus multiplexed and output thereinto by the light multiplexing part, having mutually different zero dispersion wavelengths, and being capable of generating a converted signal by the nonlinear optical phenomenon occurring during the passage of the input light and the pump light. The wavelength conversion efficiency of the sidebands is less than −20 dB relative to the maximum value of the wavelength conversion efficiency in the entirety of the plurality of optical fibers. | 08-20-2009 |
| 20090219608 | WAVELENGTH CONVERSION DEVICE AND WAVELENGTH CONVERSION METHOD - A wavelength conversion device that obtains, from an input light, a wavelength-converted light with a wavelength shift by a wavelength shift amount of Δλ is disclosed. The device comprises first and second wavelength converters. The first wavelength convertor shifts a central wavelength of a first wavelength-converted light by a first wavelength shift amount of Δλ1 relative to a central wavelength of an input light. The second wavelength convertor shifts a central wavelength of a second wavelength-converted light by a second wavelength shift amount of Δλ2 relative to a central wavelength of the first wavelength-converted light. The first wavelength shift amount of Δλ1 and the second wavelength shift amount of Δλ2 satisfy Δλ1+Δλ2=Δλ. | 09-03-2009 |
| 20100060977 | Surface-PlasmonoDielectric-Polaritonic Devices and Systems - There is provided a structure for supporting propagation of surface plasmon polaritons. The structure includes a plasmonic material region and a dielectric material region, disposed adjacent to a selected surface of the plasmonic material region. At least one of the plasmonic material region and the dielectric material region have a dielectric permittivity distribution that is specified as a function of depth through the corresponding material region. This dielectric permittivity distribution is selected to impose prespecified group velocities, v | 03-11-2010 |
| 20100157414 | Systems and Methods for Generating Electromagnetic Radiation - Systems and methods for generating electromagnetic waves are provided. In one embodiment, a system for generating electromagnetic waves is provided. The system comprises a dielectric column comprising a spherical portion and at least one cylindrical portion, wherein the spherical portion receives a first wave from a first source and a second wave from a second source and generates a resulting electromagnetic wave along the interior of the cylindrical portion having a difference frequency caused by whispering gallery modes of the spherical portion, and the at least one cylindrical portion having at least one output for outputting the resulting electromagnetic wave. | 06-24-2010 |
| 20110013266 | DYNAMIC WAVELENGTH CONVERTER - A wavelength converter includes an optical resonator that is optically coupled to a waveguide. The refractive index of the optical resonator is dynamically changed, such as by injecting free carriers into the resonator. This effectively changes that optical path length of the light, thus converting the wavelength. | 01-20-2011 |
| 20110090557 | LASER SOURCE - A laser source includes a laser device configured to emit laser light at a given angle with respect to a normal of an output end face; and an optical device configured to include an optical waveguide that guides and outputs the laser light. The output end face of the laser device is parallel to an input end face of the optical device, and the optical waveguide extends in a direction of θ | 04-21-2011 |
| 20110188112 | Nonlinear Frequency Conversion in Nanoslot Optical Waveguides - A waveguide device for frequency mixing or conversion through birefringent phase matching, having two suspended horizontal waveguides with an air-filled horizontal nanoslot between them. The waveguides are formed of a material with a high nonlinear susceptibility, and one waveguide can be n-doped with the other waveguide slab being p-doped. The system can be tuned to operate at different frequencies by varying the nanoslot gap distance by electrostatically actuating the suspended air-clad waveguides. | 08-04-2011 |
| 20110205619 | Wavelength Conversion Device With Microlens And Optical Package Incorporating The Same - An optical package is provided comprising a laser diode and a wavelength conversion device. The laser diode and the wavelength conversion device define an external laser cavity and the wavelength conversion device is tilted relative to the output face of the laser diode to define a tilt angle φ that is less than approximately 85°. The input face of the wavelength conversion device comprises a pair of tapered facets and a microlens. The pair of tapered facets and the microlens are defined on the input face such that they share respective portions of the facial waveguide region on the input face, with the tapered facets occupying peripheral portions of the facial waveguide region on the input face and the microlens occupying an interior portion of the facial waveguide region on the input face. Each of the pair of tapered facets define a facet angle α within the facial waveguide region that is less than the facet angle α and is greater than approximately 45°. Additional embodiments are disclosed and claimed. | 08-25-2011 |
| 20120002269 | DEVICE FOR INCREASING THE SPECTRAL BANDWIDTH OF OPTICAL PULSES AS WELL AS AN ARRANGEMENT AND A METHOD FOR REDUCING THE DURATION OF OPTICAL PULSES WITH THE USE OF SUCH A DEVICE - A device for increasing the spectral bandwidth of optical pulses, comprises a hollow fiber waveguide, optical components for focusing the beam into the hollow fiber waveguide and for re-collimating the beam at the exit of the hollow fiber waveguide, the hollow fiber waveguide being contained in an air-tight chamber filled with a gas at a given pressure; the length of the hollow fiber is such that, for a given input pulse energy and gas pressure, the energy contained in a fundamental propagation mode of the optical pulses that has minimum propagation losses exhibits substantially periodic oscillations over the full length of the hollow fiber waveguide and reaches a local maximum at the output end of the said hollow fiber waveguide. | 01-05-2012 |
| 20120320448 | CHIP-BASED FREQUENCY COMB GENERATOR WITH MICROWAVE REPETITION RATE - A frequency comb generator fabricated on a chip with elimination of a disadvantageous reflow process, includes an ultra-high Q disk resonator having a waveguide that is a part of a wedge structure fabricated from a silicon dioxide layer of the chip. The disk resonator allows generation of a frequency comb with a mode spacing as low as 2.6 GHz and up to 220 GHz. A surface-loss-limited behavior of the disk resonator decouples a strong dependence of pumping threshold on repetition rate. | 12-20-2012 |
| 20150029579 | CHIP-BASED FREQUENCY COMB GENERATOR WITH MICROWAVE REPETITION RATE - A frequency comb generator fabricated on a chip with elimination of a disadvantageous reflow process, includes an ultra-high Q disk resonator having a waveguide that is a part of a wedge structure fabricated from a silicon dioxide layer of the chip. The disk resonator allows generation of a frequency comb with a mode spacing as low as 2.6 GHz and up to 220 GHz. A surface-loss-limited behavior of the disk resonator decouples a strong dependence of pumping threshold on repetition rate. | 01-29-2015 |
| 20220137482 | BROADBAND RADIATION GENERATION IN HOLLOW-CORE FIBERS - Radiation source assemblies and methods for generating broadened radiation by spectral broadening. A radiation source assembly includes a pump source configured to emit modulated pump radiation at one or more wavelengths. The assembly further has an optical fiber configured to receive the modulated pump radiation emitted by the pump source, the optical fiber including a hollow core extending along at least part of a length of the fiber. The hollow core is configured to guide the received radiation during propagation through the fiber. The radiation emitted by the pump source includes first radiation at a pump wavelength, and the pump source is configured to modulate the first radiation for stimulating spectral broadening in the optical fiber. | 05-05-2022 |
