Patent application number | Description | Published |
20080269870 | Method for Preparing Medical Stents - A method for preparing stents, with a stent blank subjected to a work process, in which the desired pattern is cut through the stent blank by evaporating the stent material with a diode-pumped fibre laser. The used fibre laser is preferably a picosecond laser having a minimum power of 20 W and a repetition frequency above 1 MHz. | 10-30-2008 |
20090052479 | Saturable absorber structure - The invention relates to a saturable absorber structure ( | 02-26-2009 |
20090154879 | Means of Coupling Light Into Optical Fibers and Methods of Manufacturing a Coupler - The invention relates to a pump coupler ( | 06-18-2009 |
20090154881 | Optical Fiber Combiner and Method of Manufacturing Thereof - The invention relates to an optical fiber combiner and a method for the manufacture thereof. The combiner has a tapering support preform with a plurality of capillary bores, a plurality of input fibers including a core and a cladding around the core and being arranged in parallel in the capillary bores of a support preform, and an output fiber coupled to the tapered end of the support preform in optical connection with the input fibers. The cladding thickness to core thickness ratio of at least one of the input fibers is decreased at the region of the support preform. The invention provides an optically high quality fiber combiner. | 06-18-2009 |
20090154882 | Means of Coupling Light Into Optical Fibers and Methods of Manufacturing a Coupler - The invention relates to a pump coupler ( | 06-18-2009 |
20130272657 | PACKAGED FIBER-OPTIC COMPONENT AND METHOD OF MANUFACTURING THEREOF - The invention concerns a fiber-optic component, in particular a fiber coupler, and method for manufacturing thereof. The component comprises a housing ( | 10-17-2013 |
20130315548 | Packaging for a fiber optic component and manufacturing method thereof - The present invention provides a packaging for a fiber optic component, such as an optical fiber, wherein the heating induced strain to the fiber optic component is minimized, where the packaging comprises a first support member having a first coefficient of thermal expansion (k | 11-28-2013 |
20150086159 | FIBER OPTIC MODE SCRAMBLER AND A METHOD OF MANUFACTURING THEREOF - A fiber optic mode scrambler includes a multi-mode optical fiber formed with a core and a cladding around the core and a non-adiabatic cross-sectional shape change zone in the optical fiber. The fiber further has a bending region extending over a length of the optical fiber. The optical fiber has a non-zero curvature at the bending region and a device for maintaining the curvature of the optical fiber at the bending region. Mode scramblers can be provided that are accurately adjusted to match with different desired optical characteristics. A well-controlled manufacturing method for the mode scrambler is also described. | 03-26-2015 |