Patent application number | Description | Published |
20090323752 | High brightness laser diode module - A high-brightness laser module is configured with a beam-compression unit capable of reducing a diameter of parallel light beams which are emitted by respective spaced apart individual laser diodes. The module further has an objective lens configured to losslessly launch the light with the reduced diameter into a fiber. | 12-31-2009 |
20100135350 | Wavelength stabilized light emitter and system for protecting emitter from backreflected light - A gain module, operative to output a laser light coupled into a laser system, is structured with at least one gain element radiating the laser light and a spectrally-selective element. The spectrally-selective element includes a slab of photosensitive material and two parallel feedback and isolating Bragg mirrors recorded in the slab. The feedback Bragg mirror is operative to provide a wavelength-dependent feedback so as to cause the laser chip to generate the laser light at the resonance wavelength of the feedback Bragg mirror. The isolating Bragg mirror is automatically adjusted to retroreflect a backreflected signal light, which is generated by the laser system at a signal wavelength different from the resonance wavelength, upon positioning the feedback mirror orthogonally to the laser light. | 06-03-2010 |
20100226405 | High brightness laser diode module - A high-brightness laser module is configured with a beam-compression unit capable of reducing a diameter of parallel light beams which are emitted by respective spaced apart individual laser diodes. The module further has an objective lens configured to losslessly launch the light with the reduced diameter into a fiber. | 09-09-2010 |
20110027720 | Method and Device for Fabricating Volume Bragg Gratings - A system for recording multiple volume Bragg gratings (VBGs) in a photo thermo-refractive material is configured to implement a method which provides for irradiating the material by a coherent light through a phase mask. The system has a plurality of actuators operative to displace the light source, phase mask and material relative to one another so as to mass produce multiple units of the material each having one or more uniformly configured VBGs. | 02-03-2011 |
20110158274 | Optical Device - A laser diode is configured with a substrate delimited by opposite AR and HR reflectors and a gain region. The gain region bridges the portions of the respective AR and HR reflectors and is configured with a main resonant cavity and at least one side resonant cavity. The main resonant cavity spans between the portions of the respective reflectors, and at least one additional resonant cavity extends adjacent to the main resonator cavity. The gain region is configured so that stimulated emission is generated only the main resonant cavity. Accordingly, the laser diode is operative to radiate a high-power output beam emitted through the portion of the AR reflector which is dimensioned to shape the output beam with the desired near-field. | 06-30-2011 |
20140110843 | Semiconductor Unit with Submount for Semiconductor Device - A semiconductor unit includes a submount and a chip coupled to the submount. The submount is configured with a base and a plurality of layers between the base and the chip. One of the layers, a heat-spreading electro-conducting sliver (“Ag”) layer, is deposited atop the base. The thickness of the Ag layer is selected so that a cumulative coefficient of thermal expansion of the submount substantially matches that one of the chip. Coupled to the active zone of the chip is a stress-dumping layer made from elastic malleable materials. | 04-24-2014 |
20140353362 | Laser Ablation Process for Manufacturing Submounts for Laser Diode and Laser Diode Units - A method for manufacturing submounts for laser diodes includes the steps of providing a base configured with a ceramic carrier and a metal layer deposited upon the substrate. The method further includes using a pulsed laser operative to generate a plurality of pulses which are selectively trained at predetermined pattern on the metal layer's surface so as to ablate the desired regions of the metal layer to the desired depth. Thereafter the base is divided into a plurality of submounts each supporting a laser diode. The metal layer includes a silver sub-layer deposited upon the ceramic and having a thickness sufficient to effectively facilitate heat dissipation. | 12-04-2014 |
20140355638 | High Power Spatial Filter - An improved high power special filter, system and method. In the system, an optical fiber is disposed inside a ferule channel structure, and the channel structure is aligned with a focusing lens system. The end of the fiber is at a distance D from the channel opening that faces the focusing lens system, and D is determined by the system's numeric aperture factor and the cladding thickness of the optical fiber. | 12-04-2014 |