Patent application number | Description | Published |
20090136176 | OPTICAL FIBER MODE COUPLING DEVICE, HAVING AN OPTIMIZED FIBER INTERFACE AND METHOD OF FABRICATION THEREOF - An optical fiber mode coupling device, capable of being readily connected to a conventional optical fiber with a high degree of ruggedness, is provided. The inventive mode coupling device only allows transmission of at least one supported fiber mode therethrough, and is preferably configured to maximize the coupling, of at least one desired fiber mode, to the at least one supported fiber mode. Advantageously, the inventive mode coupling device is capable of performing the functions of a mode filter for the signal entering its first end, or serving as a mode conditioner for the signal entering its opposite second end. Thus, in one practical application thereof, the novel mode coupling device functions as a mode filter by maximizing the coupling between at least one desired fiber mode of a multi-mode input signal entering the device's first end, and at least one supported mode of the device, to produce an output signal at the device's second end that comprises at least one predetermined fiber mode, corresponding to at least one desired fiber mode. In another practical application thereof, the novel mode coupling device functions as a mode conditioner by maximizing the coupling between an input signal, comprising at least one predetermined fiber mode, that enters the device's second end, and, and at least one supported mode of the device, to produce an output signal at the device's first end that comprises at least one desired fiber mode, corresponding to a conditioned at least one predetermined fiber mode. | 05-28-2009 |
20100002983 | DISTRIBUTED OPTICAL FIBER DETECTION SYSTEM - A distributed elongated optical fiber detection system is provided, having at least one sensitive region, and being capable of detecting the occurrence and location(s) of one or more events along its length that cause one or more perturbations in the at least one sensitive region. In one embodiment of the invention, the novel detection system includes, at its first end, an optical signal source capable of launching a signal in a first signal mode through an optical fiber waveguide comprising at least one sensitive region along its length, and configured for transmitting at least two signal modes therethrough, toward its second end. A reflecting device, capable of reflecting only signals in a second signal mode, is positioned at the second end of the waveguide. An occurrence of at least one event in at least one sensitive region causes a perturbation in the waveguide sufficient to couple at least a portion of the energy of the forward traveling signal into a second signal mode, such that the signal in the second signal mode is reflected back toward the first end of the waveguide. A detector, capable of detecting at least one characteristic of a reflected signal in the second signal mode, is connected to the first end of the waveguide, such that when the at least one event occurs, and a reflected signal in the second signal mode is produced, the detector is capable of determining the quantity of one or more occurring events as well as a location of each of the events along the waveguide lengths. In another inventive embodiment, instead of a reflector, the detector is connected to the second end and detects the signal in the second mode directly. | 01-07-2010 |
20100008616 | CHIRAL FIBER POLARIZER - An chiral optical fiber polarizer is provided that is capable of being fabricated in-line along a conventional polarization maintaining fiber, preferably one which includes at least one structure element that is external, and parallel, to the fiber's core. The novel chiral fiber polarizer is preferably positioned between two unmodified optical fiber portions, and includes a modified central portion with altered fiber cladding interface elements on each side thereof. The modified central portion is of a non-circular cross section, and comprises at least one diameter reduced sub-section operable to allow a light signal of said predefined operation wavelength to propagate substantially in the core and in the at least one external structure element, at least one diameter expanded sub-section operable to allow a light signal to propagate substantially in the core, each sub-section being produced in accordance with a corresponding predefined diameter reduction and expansion profile, where the modified central portion is further configured in accordance with at least one helical pitch profile that is operable to, upon receiving a light signal with a first and second linear polarization components: convert the first linear polarization component to a first elliptical polarization component while scattering the first elliptical polarization component, and convert the second linear polarization component to a second elliptical polarization component, transmit therethrough, and convert back to the second linear polarization component prior to exit therefrom. The inventive polarizer also substantially eliminates the possibility of an undesirable SBS effect. | 01-14-2010 |
20100008624 | OPTICAL FIBER COUPLER ARRAY - An optical fiber coupler array capable of providing multiple low loss, high coupling coefficient interfaces between a predetermined number of low numerical aperture optical fibers and an optical waveguide device with at least a corresponding number of waveguide interfaces. The novel coupler array includes a plurality of coupler inner cores and a plurality of corresponding coupler outer cores, within a medium surrounding each plural outer core, and also includes a first end for interfacing with plural optical fibers and a second end for interfacing with a plurality of waveguide interfaces of an optical waveguide device. The sizes of the inner and outer cores are gradually reduced from the first end to the second end in accordance with at least one predetermined reduction profile. Various parameters, such as refractive indices and sizes of the inner and outer cores and the medium (as well as the reduction profile) are selected to produce a plurality of low numerical aperture waveguides at the first end, and a plurality of high numerical aperture waveguides at the second end, while advantageously minimizing insertion loss and maximizing the coupling coefficient at each end. Advantageously, the novel coupler array may be fabricated as an array of individually drawn couplers from multiple parallel fused performs (arranged in a row, or in another geometric cross section). Alternately, the novel coupler array may be fabricated from a single perform (glass or polymer) embedded with a plurality of parallel inner and outer core sets. | 01-14-2010 |
20100008627 | DUAL TWIST SINGLE HELIX OPTICAL FIBER GRATING - A single helix chiral fiber grating of a predetermined grating strength is provided that is operable to control light transmission in a predetermined wavelength range. The novel fiber grating comprises a first optical fiber with a first interface portion at a first end, a second interface portion at a second end, and a middle portion therebetween. The first optical fiber is configured with at least one fiber core, surrounded by a corresponding at least one cladding, with a first longitudinal section disposed within the first interface portion, a second longitudinal section disposed within the second interface portion, and also includes a longitudinal helical section, disposed therebetween within the middle portion, that comprises a longitudinal helix structure of a single predetermined handedness, having a predetermined pitch profile, and having a predetermined helix diameter profile selected and configured to produce the predetermined grating strength. The helical section of the novel fiber grating is preferably produced by placing the first optical fiber, proximal to and parallel with a second fiber (or equivalent elongated member), and longitudinally twisting them together to form a double helix structure. Advantageously, the diameter of the second fiber (or a diameter profile thereof) may be selected to achieve the predetermined helix diameter profile in the helical section of the first fiber. The second fiber may be left proximal to the first fiber after fabrication or removed. | 01-14-2010 |
20120257857 | High Density Optical Packaging Header Apparatus - The inventive high density optical packaging header apparatus, in various embodiments thereof, provides configurable, modular, and highly versatile solutions for simultaneously connecting multiple optical fibers/waveguides to optical-fiber-based electronic systems, components, and devices, and is readily usable in a variety of applications involving highly flexible and modular connection of multiple optical fibers/waveguides assembled in a header block configuration to optical-fiber-based system/component backplanes, while providing advantageous active and passive alignment features. | 10-11-2012 |
20130121641 | OPTICAL FIBER COUPLER ARRAY - An optical fiber coupler array capable of providing multiple low loss, high coupling coefficient interfaces between a predetermined number of low numerical aperture optical fibers and an optical waveguide device with at least a corresponding number of waveguide interfaces. The novel coupler array includes a plurality of coupler inner cores and a plurality of corresponding coupler outer cores, within a medium surrounding each outer core, and also includes a first end for interfacing with optical fibers and a second end for interfacing with a plurality of waveguide interfaces of an optical waveguide device. The sizes of the inner and outer cores are gradually reduced from the first end to the second end in accordance with at least one predetermined reduction profile, such that the coupler array comprises a plurality of low numerical aperture waveguides at the first end, and a plurality of high numerical aperture waveguides at the second end. | 05-16-2013 |
20130188174 | Configurable Chiral Fiber Sensor - The inventive configurable chiral fiber sensor is readily configurable for use in a variety of applications (such as applications involving pressure and/or temperature sensing), and which is particularly suitable for applications in which the sensing of a presence or absence of the target sensed event (e.g., specific minimum pressure or minimum temperature) is required. Advantageously, the inventive configurable chiral fiber sensor utilizes light sources, photodetectors, and related devices for sensor interrogation. | 07-25-2013 |
20130188175 | Configurable Chiral Fiber Tip-Positioned Sensor - The inventive configurable chiral fiber sensor with a tip-positioned sensing element, is readily configurable for use in a variety of applications (such as applications involving pressure, temperature, and even axial twist sensing), and is particularly suitable for applications requiring highly precise and accurate sensor readings within corresponding predefined limited sensing ranges. Advantageously, the inventive configurable chiral fiber sensor with a tip-positioned sensing element, is operable to utilize a wide variety of light sources, photodetectors, and related devices for sensor interrogation. | 07-25-2013 |
20130216184 | CONFIGURABLE PITCH REDUCING OPTICAL FIBER ARRAY - The inventive optical fiber coupler array is capable of providing a low loss, high-coupling coefficient interface with high accuracy and easy alignment between a plurality of optical fibers (or other optical devices) with a first channel-to-channel spacing, and an optical device having a plurality of closely-spaced waveguide interfaces with a second channel-to-channel spacing, where each end of the optical fiber coupler array is configurable to have different channel-to-channel spacing, each matched to a corresponding one of the first and second channel-to-channel spacing. The novel optical coupler array includes a plurality of waveguides (at least one of which may optionally be polarization maintaining), that comprises at least one gradually reduced vanishing core fiber, at least in part embedded within a common housing structure. Alternatively, the novel coupler array may be configured for utilization with at least one of an optical fiber amplifier and an optical fiber laser. | 08-22-2013 |
20130301991 | CONFIGURABLE PITCH REDUCING OPTICAL FIBER ARRAY - The inventive optical fiber coupler array is capable of providing a low loss, high-coupling coefficient interface with high accuracy and easy alignment between a plurality of optical fibers (or other optical devices) with a first channel-to-channel spacing, and an optical device having a plurality of closely-spaced waveguide interfaces with a second channel-to-channel spacing, where each end of the optical fiber coupler array is configurable to have different channel-to-channel spacing, each matched to a corresponding one of the first and second channel-to-channel spacing. The novel optical coupler array includes a plurality of waveguides (at least one of which may optionally be polarization maintaining), that comprises at least one gradually reduced vanishing core fiber, at least in part embedded within a common housing structure. Alternatively, the novel coupler array may be configured for utilization with at least one of an optical fiber amplifier and an optical fiber laser. | 11-14-2013 |
20140081146 | BONE MINERAL DENSITY MEASUREMENT APPARATUS AND METHOD - A support mechanism may maintain a middle phalanx in a fixed position relative to an imaging sensor/receptor during a bone mineral density (BMD) test. The mechanism may comprise a flat hand plate and a cover. The cover may be shaped so that it guides the finger towards the target area of the receptor. The cover may be raised slightly above the hand plate. A hand may be placed in the mechanism with the palm facing downwards, resting on the hand plate, and the middle finger raised and resting flat on an imaging receptor. A musculoskeletal response may ensure that the middle phalanx remains proximate the imaging receptor for the duration of the BMD Test. | 03-20-2014 |
20140275765 | PROBE ASSEMBLY AND DISPOSABLE COVER PARTICULARLY FOR USE IN ENDOSCOPE APPLICATIONS OF LOW COHERENCE INTERFEROMETRY - A fiber optic probe assembly comprises an optical engine and a fiber optic probe. A proximal end connector comprises a self-aligning connector for connecting optical fibers of the fiber optic probe to the optical engine and an integrated fiber optic-based polarizer. A disposable cover is provided for enclosing at least a portion of a fiber optic probe assembly. The disposable cover comprises an elongated tubular housing and a sheath portion adapted to receive at least a portion of the fiber optic probe between ends of the housing. A handle is disposed on a proximal end of the housing, the handle comprising a self-tensioning device. An optical window is disposed on a distal end of the housing, the optical window adapted to provide for alignment with optical elements of the fiber optic probe. | 09-18-2014 |
20140294345 | OPTICAL COMPONENT ASSEMBLY FOR USE WITH AN OPTICAL DEVICE - The inventive optical component assembly advantageously enables a multi-waveguide optical component (such as the inventive optical fiber coupler array, a multi-core optical fiber, etc.), to be coupled to at least one waveguide of an optical device at a predefined coupling angle. The optical component assembly of the present invention comprises a multi-waveguide optical component with an output end, a prism having an input surface, an output surface, and an internal reflective surface with a predefined reflection angle, and a GRIN lens, positioned between the component output end and the prism input surface, along a longitudinal axis of the multi-waveguide optical component. In accordance with the present invention, the length of the GRIN lens, and its refractive index gradient profile are optimized to form an optical image of the output end of the multi-waveguide optical component, at the output surface of the prism, thus enabling the output surface of the prism to be coupled to at least one waveguide of an optical device, with the predefined reflection angle corresponding to the angle at which the multi-waveguide optical component may be coupled to the optical device. | 10-02-2014 |