Class / Patent application number | Description | Number of patent applications / Date published |
385034000 | Rod type | 13 |
20080226231 | Multi-Channel Optical Rotary Coupling of Low Reflectance - An optical rotary joint comprises a first collimator arrangement for coupling-on first light-waveguides, and a second collimator arrangement for coupling-on second light waveguides, with the second collimator arrangement being supported to be rotatable relative to the first collimator arrangement about a rotation axis. At least one derotating optical element is provided in the light path between the first collimator arrangement and the second collimator arrangement. At least one collimator arrangement comprises a rod-shaped lens that is fastened on a support plate so that the axis of the lens is tilted at a given angle relative to the rotation axis of the rotary joint. | 09-18-2008 |
20080279503 | SYSTEM AND APPARATUS FOR FIBER OPTIC CONNECTOR - A fiber optic connector uses an expanded light beam design in a universal receptacle that couples to a single style of plug on the ends of all harnesses. A single, mirror image socket design is used on bulkhead receptacles or box connections, with which two harness plugs mate. The receptacle uses optical lenses for expanding, collimating, and focusing the beam from the plug terminii. The optical lens may comprise rod lenses, ball lenses, or any other optical component that accomplishes the desired beam manipulation with the required diameters and lengths. The optical components are captured in a sleeve that holds the components, establishes the distance between the plug terminii and the lenses, and provides the alignment needed between the plug ferrules and the optical components. | 11-13-2008 |
20090257714 | Multimode Reflective Tap - A glass optical reflective tap is described that optically connects two optical fibers and may tap a portion of the light that is being communicated between the optical fibers. In one embodiment of the invention, the optical filter includes two D-lenses that operate as focusing or collimator lenses. The first D-lens focuses an optical signal onto a tap filter that allows a majority of the light within an optical signal to pass and also reflects a small portion of optical signal light to a reflective port. The second D-lens focuses the passed light into a transmission port of an optical fiber. | 10-15-2009 |
20100189393 | OPTICAL AMPLIFIER AND RESONATOR - [Object] An optical amplifier and a resonator capable of outputting output light having a high intensity are provided. | 07-29-2010 |
20100189394 | Multi-Channel Optical Rotary Coupling of Low Reflectance - An optical rotary joint comprises a first collimator arrangement for coupling-on first light-waveguides, and a second collimator arrangement for coupling-on second light waveguides, with the second collimator arrangement being supported to be rotatable relative to the first collimator arrangement about a rotation axis. At least one derotating optical element is provided in the light path between the first collimator arrangement and the second collimator arrangement. At least one collimator arrangement comprises a rod-shaped lens that is fastened on a support plate so that the axis of the lens is tilted at a given angle relative to the rotation axis of the rotary joint. | 07-29-2010 |
20110091156 | ENVIRONMENTALLY RUGGED FREE-SPACE FIBER WAVEGUIDE CONNECTOR AND METHOD OF MANUFACTURE THEREOF - Various embodiments of free-space fiber waveguide connectors, feed-throughs and GRIN lens assemblies and methods of bonding GRIN lenses in, and aligning waveguide fibers to, such connectors, feed-throughs and assemblies. In one embodiment, a free-space fiber waveguide connector includes: (1) an insert having a waveguide fiber bonded in a fiber mount attached proximate one end of the insert and an angle-faced GRIN lens attached proximate an opposing end of the insert and (2) a lens collar attached to the GRIN lens, the one end defining a reference plane and a virtual axis of the GRIN lens perpendicular to the reference plane, the fiber mount adjustable to a reflection from a reflective surface bonded parallel to the reference plane. | 04-21-2011 |
20120148193 | FERRULE STRUCTURE AND ASSEMBLY FOR LENS TERMINATED FIBER - A ferrule structure including a ferrule having an end face shape configured to incorporate at least a portion of a lens attached to an end of an optical fiber. The end face includes a cavity in which a circumference of the cavity is equal to or less than the outer diameter of the ferrule and larger than in inner diameter of an opening in the ferrule housing an optical fiber. | 06-14-2012 |
20120321249 | LASER-PROCESSED GRIN LENSES AND OPTICAL INTERFACE DEVICES AND ASSEMBLIES USING SAME - Laser-processed gradient-index (GRIN) lenses and optical interface devices and assemblies that utilize the laser-processed GRIN lenses are disclosed. A GRIN lens assembly includes a cylindrical central section having a GRIN index profile, planar front and back surfaces, an outer surface, and a diameter D | 12-20-2012 |
20130301987 | OPTICAL AMPLIFIER AND RESONATOR - An optical amplifier includes: a first optical fiber, through which seed light and excitation light propagate; an optical coupler that inputs the excitation light into the first optical fiber; a first lens to which the seed light and the excitation light output from the first optical fiber are input and which increases diameters of the seed light and the excitation light; a glass rod doped with rare earth elements to be excited by the excitation light, to which the seed light and the excitation light output from the first lens are input and which amplifies and outputs the seed light as output light; a second lens to which at least the output light output from the glass rod is input and which decreases a diameter of the output light; and a second optical fiber to which the output light output from the second lens is input. | 11-14-2013 |
20140086530 | ASYMMETRIC MULTI-CHANNEL GRIN OPTICAL CONNECTOR - A gradient-index (GRIN) optical connector is disclosed that includes a GRIN lens having a central optical axis and front and back opposite endfaces. A plurality of optical fibers are optically coupled to the back endface of the GRIN lens and defines a first optical fiber bundle having an asymmetric arrangement relative to the central optical axis of the GRIN lens. The GRIN lens has a refractive index profile generally defined by an alpha profile having an alpha parameter α in a range 1.92≦α≦1.98. An optical fiber connector assembly formed by interfacing two of the GRIN optical connectors is also disclosed. | 03-27-2014 |
20150301295 | MULTI-CHANNEL OPTICAL CONNECTOR WITH COUPLING LENSES - Optical connectors are provided for connecting sets of optical waveguides ( | 10-22-2015 |
20150316717 | CONTACT FOCUSING HOLLOW-CORE FIBER MICROPROBES - A focusing microprobe system, comprising: one of a single-mode laser radiation source and a few-mode laser radiation source; a coupler coupled to the laser radiation source; one of a single-mode flexible laser radiation delivery system and a few-mode flexible laser radiation delivery system coupled to the coupler; and one or more focusing microlenses coupled to the flexible laser radiation delivery system and arranged in a focusing tip. The coupler comprises a focusing lens. The flexible laser radiation delivery system comprises one of a hollow-core fiber and a flexible waveguide. Optionally, the one or more focusing microlenses are bonded to seal a hollow internal cavity of the flexible laser radiation delivery system. The one or more focusing microlenses comprise one or more conventional lenses or one or more focusing spheres, hemispheres, or cylinders. | 11-05-2015 |
20160041341 | MONOLITHIC ELEMENT AND SYSTEM FOR COLLIMATING OR FOCUSING LASER LIGHT FROM OR TO AN OPTICAL FIBER - A monolithic optical element and system is used for collimating or focusing laser light from or to optical fibers. The optical fiber terminates in a tip that directly abuts against the first surface of the optical element. The optical element may provide a collimation or focusing function depending upon whether the abutting fiber delivers light for collimation or receives focused light from a collimated beam. The optical element may be a standard or modified barrel or drum lens, with the first and second surfaces being convex curved surfaces having the same or different radii of curvature. The end of the optical element to which the fiber abuts may have a diameter to match the inner diameter of a ferrule for positioning the fiber. A pair of the elements may be used for collimation and focusing in a Raman probehead or other optical detection system. | 02-11-2016 |