| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 372039000 |
PARTICULAR ACTIVE MEDIA
| 1759 |
| 372009000 |
PARTICULAR BEAM CONTROL DEVICE
| 1366 |
| 372006000 |
OPTICAL FIBER LASER
| 371 |
| 372034000 |
PARTICULAR TEMPERATURE CONTROL
| 337 |
| 372380100 |
PARTICULAR COMPONENT CIRCUITRY
| 310 |
| 372092000 |
PARTICULAR RESONANT CAVITY
| 164 |
| 372069000 |
PARTICULAR PUMPING MEANS
| 110 |
| 372003000 |
RAMAN LASER
| 40 |
| 372005000 |
SHORT WAVELENGTH LASER
| 35 |
| 372004000 |
LONG WAVELENGTH (E.G., FAR INFRARED)
| 17 |
| 372033000 |
PARTICULAR OPERATING COMPENSATION MEANS
| 16 |
| 372002000 |
FREE ELECTRON LASER
| 12 |
| 372007000 |
THIN FILM LASER | 3 |
| 20080273556 | SEMICONDUCTOR LIGHT-EMITTING DEVICE - A semiconductor light-emitting device includes a light generation unit generating light with an oscillation wavelength λ, a light outgoing facet from which light generated at the light generation unit emerges, a light reflecting facet at which light generated at the light generation unit is reflected, and a high reflection film at the light reflecting facet and made of a dielectric multilayered film of at least three layers. The high reflection film includes a first layer which is in contact with the light reflection facet, is constituted of Al | 11-06-2008 |
| 20090161702 | Optically pumped disk-type solid state laser oscillator and optically pumped disk-type solid state laser system - An optically pumped disk type solid state laser oscillator includes: a cylindrical shape thin film laser gain medium having a through-hole; a ring mirror whose surface is opposing to a side surface of the thin film laser gain medium; a conical mirror arranged in the through-hole and reflects a light from the ring mirror to a direction perpendicular to the thin film laser gain medium where an output mirror is arranged. The ring mirror, the conical mirror and the output mirror compose a resonator for oscillating a laser beam to be outputted from the output mirror. | 06-25-2009 |
| 20110134941 | TWO DIMENSIONAL PHOTONIC CRYSTAL SURFACE EMITTING LASER - Provided is a two dimensional photonic crystal surface emitting laser which can suppress light leaking outside in an in-plane direction of the two dimensional photonic crystal and an absorption loss in an active layer caused by serving as an absorbing layer without contributing to light emission, and can improve light use efficiency. The surface emitting laser has a laminated structure in which an active layer and a photonic crystal layer are laminated in a vertical direction, has a resonance mode in an in-plane direction of the photonic crystal, and extracts light in a vertical direction to a surface of the photonic crystal, wherein the laminated structure has a multi-refractive index layer including a central region made of a high refractive index medium and a peripheral portion made of a low refractive index medium with a lower refractive index than that of the high refractive index medium. | 06-09-2011 |
| 372037000 |
HAVING AN APPLIED MAGNETIC FIELD | 2 |
| 20090052484 | Magneto-optoelectronic switch and sensor - A Magneto-Optoelectronic Device MOD ( | 02-26-2009 |
| 20090067461 | ROTATING LASER TRANSMITTER - The transmitter has a generally flat, circuit board stator, a rotor including a plurality of magnets mounted in a ring around a central opening, and a bearing, supporting the rotor for rotation about an axis that extends through the central opening, A pentaprism assembly including an optics holder is mounted on the rotor for rotation therewith. The pentaprism assembly receives a beam of laser light through the central opening and redirects at least a portion of the laser light outward in a direction normal to the rotation axis. A laser source, mounted on the stator, provides a beam of laser light through the central opening to the pentaprism assembly. The beam of laser light is aligned with the rotation axis. The laser source includes a collimating lens positioned within the rotor. A shield plate of magnetic material beneath the stator exerts a force on the rotor in conjunction with the magnets, taking play out of the bearing. The transmitter uses Hall effect sensors on the stator to control switching current to coils on the stator. The transmitter also uses the outputs of the Hall effect sensors and a timer output to control dithering of the laser beam. | 03-12-2009 |
| 372008000 |
LASER LOGIC SYSTEM | 1 |
| 20080291946 | Fast quantum gates with ultrafast chirped pulses - Apparatus and methods of performing fast single-qubit quantum gates using ultrafast femtosecond frequency chirped laser pulses are disclosed. The use of chirped pulses removes the demanding restrictions of prior art approaches and allows for the construction of fast quantum gates that operate at speeds on the of order several picoseconds. The apparatus includes two synchronized lasers (pump and Stokes) used to manipulate a qubit wave function in a select manner. Each laser system generates a train of optical pulses. Pulse pickers choose pump and Stokes pulses, which propagate though respective pulse shapers that apply necessary time-dependent phases. To achieve complete overlap between the pulses in time domain, necessary adjustments can be made by using an additional time delay line, which can be located in any path or in both paths. | 11-27-2008 |
| 372109000 |
MISCELLANEOUS | 1 |
| 20090067469 | Optical module having a block with feedthrough pins - The present invention provides an optical module with a relatively wider mounting area for the devices with a CAN package. The optical module of the present invention provides the stem and the cap, both of which form a cavity where the devices are to be installed. The stem provides the block extruding from the primary surface of the stem into the cavity. The block mounts the optical and electrical devices in surfaces opposite to each other, and provides feedthrough pins between these two surfaces. The device mounted in each surface may be electrically connected through these feedthrough pins. | 03-12-2009 |
