Abstract: The present invention relates to an assembly comprising:

Abstract: An improved cage is provided for a roller bearing for use in a hub assembly, for example. The cage includes roller pockets which fully entrap the roller in the cage, to maintain the radial and axial position of the roller in the cage. Additionally, the bearing for the hub assembly is formed in part by the hub. One of the inner races is formed integrally with the hub. These constructions allow for the cage/roller assembly to be installed in the outboard position of the hub prior to the hub and hub seal being installed in the hub assembly.

Abstract: A rotary bearing assembly having a preset breaking point, particularly for a rotor of a turbo engine, includes a rotary bearing arranged between a nonrotating bearing carrier housing and a bearing carrier rotating about a rotational axis, the rotary bearing being fixed radially and axially at its outer bearing ring via a first tangential plane and a second tangential plane in the nonrotating bearing carrier housing. At predetermined stress, a breaking arrangement for the formation of a preset breaking point is provided, which is arranged in the first tangential plane and the second tangential plane, concentric with the rotational axis, between the outer bearing ring and the nonrotating bearing carrier housing.

Abstract: A monolithic single pass expanded beam mode active optical device includes: a substrate; a waveguide layer coupled to the top surface of the substrate; a semiconductor layer coupled to the waveguide layer; first and second electrodes for receiving an electric signal coupled to the substrate and the semiconductor layer, respectively. The waveguide layer includes a plurality of sublayers, forming a quantum well structure, which is responsive to the electric signal. The waveguide layer has three sections, two expansion/contraction sections and an active section, which extends between and adjacent to the two expansion/contraction sections. The thickness of at least one of the plurality of sublayers varies within the expansion/contraction portions of the quantum well structure. Possible interactions of the active region with the light include: absorption in the case of an electro-absorptive modulator and optical gain.

Abstract: An optical waveguide board is provided which includes a substrate, an optical path changing unit being formed on the substrate used to change a direction of an optical path of incident light from a direction being vertical to a surface of the substrate to a direction being horizontal to the surface of the substrate and to condense a luminous flux and an optical waveguide being formed on the substrate to carry out multi-mode transmission of a luminous flux fed from the optical path changing unit wherein, based on a spread angle of the luminous flux formed by the optical path changing unit, mainly light components to be transmitted in a zero-order mode to a three-order mode only, out of various kinds of modes for the multi-mode transmission, is transmitted through the optical waveguide.

Abstract: The dual wavelength semiconductor laser source for an optical pickup includes: two semiconductor laser elements outputting laser beams having oscillating wavelengths different from each other; and a multiplexing waveguide, formed inside of a photonic crystal having a photonic band gap, having one output end outputting laser light at one end surface and two input ends at the other end surfaces. Output beams of the two semiconductor laser elements are coupled to the respective two input ends of the multiplexing waveguide and the two beams are outputted from the one output end of the multiplexing waveguide.

Abstract: A three-dimensional optical switch using three-dimensional rewritable waveguides in a photosensitive substrate. At least two light beams are used to illuminate the substrate in the region where the waveguide is to be written. The refractive index of the substrate changes at the points where the beams intersect. Therefore, the light beams can be directed to create a three-dimensional waveguide in the photosensitive substrate. A plurality of inlet ports in one surface of the substrate are thereby connected to a plurality of outlet ports on another surface of the substrate. Alternatively, the inlet ports and the outlet ports may be on the same surface of the substrate. The invention also provides methods of creating waveguides in photosensitive media using the device described herein.

Abstract: An optical signal switching unit causing no instantaneous cutoff in switching without providing a latency time is obtained. The optical signal switching unit has a plurality of input waveguides and a plurality of output waveguides for switching the course of each optical signal on intersections between the waveguides and outputting the optical signal to the output waveguides. This optical signal switching unit comprises a plurality of optical switches and a switch state control part controlling the states of the plurality of optical switches thereby controlling formation of the output optical signal, while the optical switches take binary states including a first route state providing the optical signal with a course and a second course state providing the optical signal with another course as well as an intermediate state partially including both of the binary states.

Abstract: An optical switch device includes a first array (20) of reflectors (22), each associated with a separate optical fiber input (12), and a second array (30) of reflectors (32), each associated with a separate fiber output (14). The reflectors (22 and 32) are positionable to direct an optical signal from any one of the fiber inputs (12) to any one of the fiber outputs (14). The optical signal is directed along an optical pathway between the desired fiber output (14) and its associated reflector that is substantially aligned with an axis extending centrally from the fiber output. Preferably, symmetrical fiber beam forming units for forming the optical signal into a focused beam are included between the fiber inputs (12) and the first array as well as between the second array (20) and the fiber outputs (14).

Abstract: A substrate having a surface with reversibly switchable properties. The surface comprises a nanolayer of a material that switches from a first conformation state to a second conformation state when an external stimulus is applied. When the nanolayer is in the first conformation state, the surface is characterized by a first property, and when the nanolayer is in the second conformation state, the surface is characterized by a second property.

Abstract: An optical device having a waveguide that is formed in a photonic crystal and is provided with a special function utilizing a property specific to the photonic crystal is obtained. The waveguide device includes a waveguide formed in the photonic crystal having a periodic structure formed of at least two kinds of optical mediums. The waveguide is configured not to satisfy arrangement of the periodic structure so as to pass the light of a frequency in a photonic band gap range of the photonic crystal. At a prescribed portion of the waveguide, an optical non-linear medium having linear response as well as quadratic or higher-order non-linear response to the incoming energy of the photoelectric field is provided.

Abstract: An optical coupler reduces differential mode delay in a fiber by reducing an amount of light incident on the fiber in a region in which the refractive index is not well controlled. This region of the fiber is typically in the center of the fiber The optical coupler directs light away from the this region and/or provides a high angle of incidence to any light on this region. A diffuser may be used to reduce sensitivity of the coupler to any fluctutations in the output of the light source. The optical coupler does not need to be offset from the center of the multi-mode coupler. A phase function of an azimuthal mode of the fiber may be imposed on the light beam so that a substantial null on axis is maintained even after propogation of the light beam beyond the depth of focus of the coupler. A diffractive element generating a beam which propogates in a spiral fashion along an axis allows the shape of the beam to be maintained for longer than a depth of focus of the diffractive element.

Abstract: An arrangement for monitoring the emission wavelength of a laser source (10) emitting a main radiation beam to be launched into an optical waveguide (F) includes a wavelength selective photosensitive element (20, 22) adapted to be exposed to the radiation beam to generate an output signal (20a) indicative of the wavelength of the radiation. The arrangement comprises an optical system (12, 14, 16) defining a beam propagation path for the radiation beam towards the waveguide (F). The wavelength selective photosensitive element (20, 22) is arranged at a marginal position of the beam, to collect at least a corresponding marginal portion of the radiation beam, whereby the signal (20a) indicative of the wavelength of the radiation is generated from said marginal portion of the radiation beam in the optical system (12, 14, 16).

Abstract: The present invention provides an optical switching element causing less loss of light and permitting high response, thinning of an optical system for illumination, and the realization of an image display device exhibiting precise grayscale properties. In the optical switching element, an extraction surface of a light extraction unit mounted to a thin film is brought into contact with the total reflection surface of a light guide serving as a light guide unit comprising a glass plate or the like for transmitting light by total reflection, or near at a distance from the total reflection, surface for allowing extraction of evanescent waves, to extract the incident light transmitted through the light guide and emit the extracted light to the outside through an emission member.

Abstract: An improvement video projectors having a reflector/lamp for compressing light to a focal point at a predetermined f/#, an integrating rod positioned at the focal point to collect and integrate the light, and a detector for sensing light output from the integrating rod, the improvement comprising a converging lens positioned between the reflector/lamp and the integrating rod for compressing the focal point so as to increase the amount of light entering the integrating rod while consequentially decreasing said f/#, and a diverging lens for increasing the focal point within the integrating rod so as to restore said predetermined f/#. Preferably, the diverging lens is fabricated from gradient index glass.

Abstract: An optical collimator is provided for ready fitting to an optical device with precise optical alignment, to obviate the need for adjusting the collimator during assembly to the optical device to compensate for a translational offset and an angular deviation. In an embodiment, the collimator has a sleeve with an outer cylindrical surface that is concentric with the output optical path, which has a translational offset and an angular deviation with respect to the collimator axis. A method is provided for making such a collimator for ready fitting to an optical device with precise optical alignment. In an embodiment, a portion of an outer sleeve of the collimator is removed according to the offset and the deviation to form an outer cylindrical surface that is centered about an axis which coincides with the optical path emanating from the collimator, to allow the collimator to be readily fitted to an optical device.

Abstract: An apparatus is provided for making a collimator for precise alignment of an output optical path emanating from the collimator to obviate the need for adjusting the collimator during assembly to an optical device to compensate for a translational offset and an angular deviation. In an embodiment, the apparatus is capable of determining the translational offset and the angular deviation, and removing a portion of an outer sleeve of the collimator according to the offset and the deviation to form an outer cylindrical surface that is centered about an axis which coincides with the optical path emanating from the collimator, to allow the collimator to be readily fitted to an optical device.

Abstract: An optical fiber array with lenses connected with a plurality of optical fibers is disclosed, enabling to be manufactured to meet the optical fiber end intervals to the terminal intervals of an optical device to be connected and having an improved efficiency in connection operation. The optical fiber array comprises a base plate having a first end surface and a second end surface opposite to the first end surface, a plurality of optical fibers having a tip surface inserted and secured in each of the holes opened on the base plate, and a plurality of collimator lenses installed on the second end surface facing the tip surfaces of the optical fiber. Each hole has a tapered inside wall having a diameter gradually decreasing from an opening on the first end surface of the base plate toward the second end surface and a parallel inside wall continuing from the tapered inside wall end.

Abstract: A compactly constructed configuration for coupling radiation into an optical fiber in a highly effective manner has a semiconductor laser with a radiation exit window, and an optical fiber having a radiation entry end. The radiation exit window of the semiconductor laser faces the radiation entry end of the optical fiber. A resonator is provided and has an end mirror and an output mirror, between which the semiconductor laser is disposed. The output mirror of the resonator is formed by the optical fiber. An optical device is disposed between the semiconductor laser and the optical fiber and serves for imaging only the fundamental mode of the radiation of the semiconductor laser onto the radiation entry end of the optical fiber.

Abstract: A dispersion compensator has a linearly chirped fiber Bragg grating mounted at two ends of an elongated, channel-shaped heat distributor. The distributor has two thermo-electric coolers at two ends, a heating strip for uniform heating of the distributor, a temperature sensor mounted on the distributor in the middle of the grating region, and longitudinally variable heating means attached to the distributor and extending along its length for effecting a longitudinally varying heating of the grating region. The provision of the heating strip helps maintain linearity of the thermal gradient of the distributor while the longitudinally variable heaters facilitate relatively fast dithering of the temperature of the grating region.

Abstract: There is provided a slant short-period grating which is obtainable by irradiating light onto an optical fiber whose core is formed from quartz glass to which has been doped a photosensitive dopant that changes a refractive index of the quartz glass by light irradiation, and whose clad has one or two or more layers with at least the layer that is adjacent to the core being a photosensitive layer formed from quartz glass to which has been doped a photosensitive dopant that changes a refractive index of the quartz glass by light irradiation. In this slant short-period grating a grating portion is formed by changing the refractive index of the photosensitive layer of the clad and the core at a predetermined grating period along a longitudinal direction of the optical fiber by a predetermined slant angle.

Abstract: Embodiments of an apparatus and method for optical chip-to-chip signaling via free-space are disclosed herein. In one representative embodiment of a fiber-free interconnect system in accordance with the teachings of the present invention, a plurality of microchips packages, each including a microchip coupled to a carrier, may be mounted to a surface of a substrate. Each of the plurality of microchip packages may also include at least one optoelectronic microchip coupled to the carrier, and including an optical source and/or an optical detector to generate or detect optical signals, respectively, to facilitate communication between microchips. Each of the plurality of microchip packages may be mounted to the substrate to optically couple the at least one optoelectronic microchip to a corresponding micro-electro mechanical system mirror array to reflect the optical signals to the optical detector, or from the optical source, respectively.

Abstract: A novel electro-opto-mechanical assembly is provided. The electro-opto-mechanical assembly comprising: a first wafer, the wafer having a top and bottom surface; at least one optical element disposed on one surface of the first wafer; at least one discrete opto-electronic transducer element disposed on the bottom surface of the first wafer and in optical communication with the optical element; and an optical waveguide; wherein the first wafer and the optical element form an optical relay which relays light between the discrete opto-electronic transducer and the optical waveguide and thereby forms an efficient optical coupling between the discrete opto-electronic transducer and the optical waveguide.

Abstract: A method and apparatus for aligning an optical waveguide with a radiation source are provided. The waveguide has a longitudinal axis that defines a main optical propagation path. The optical waveguide is illuminated by the radiation source such that the waveguide generates light via photoluminescence, at least a portion of the light generated via photoluminescence being emitted from the waveguide along a direction generally transverse to the longitudinal axis. An output signal is generated at least in part on the basis of light emitted from the waveguide along a direction generally transverse to the longitudinal axis. The alignment of the radiation source and the waveguide is varied at least partly in dependence of the output signal.

Abstract: Disclosed are a holder and a holder base used for mounting an optical object. The holder fixes an object by making contact with both sides of the object and includes a body having a protruding jaw formed at an upper portion thereof, and a protrusion part extending from the protruding jaw by a predetermined distance, wherein a hole is formed at the front portion of the protrusion part. A sliding member is coupled to the protrusion part through an opening formed at a center thereof and a spring is fixed to one end of the body and the other end of the sliding member, wherein the spring serves to provide an elastic restoring force to the sliding member in a direction towards the body. Further, a fixing nail is inserted into the hole of the protrusion part and is formed at one end thereof with a handle, and a wedge is coupled to the fixing nail through an opening formed at a sidewall thereof and inserted between the protrusion part and an inner wall forming the opening of the sliding member.

Abstract: A delatch mechanism includes wedges that reside in pockets adjacent to a post on a module when the module is latched in a cage. Pulling on a handle pulls the wedges out of the pockets so that the wedges rise and lift a tab. Pulling the delatch mechanism to a limit of its motion frees the post on the module from the tab, and further pulling transfers to the module to pull the module out of the cage. The delatch mechanism can include a spring system that returns the wedges to their pockets for latching, allows movement of the wedges relative to the module for lifting of the tab, and locks into the module to pull the module free of the cage. Handles for the latch mechanism can include a bail, a flexible tab, or fixed handle that is part of an integrated structure including the wedges.

Abstract: A coupling configuration enables the coupling of an optical plug with a plug pin to a mounting tubelet wherein at least one optical conductor is arranged in at least one ferrule. The coupling configuration is formed with sleeve having a first and a second coupling region, and a further mounting tubelet. The first coupling region holds the mounting tubelet, and the second coupling region holds the further mounting tubelet. The further mounting tubelet is plugged at one of its ends onto a ferrule end, projecting from the first mounting tubelet, and is centered with respect to that end. The other end of the second mounting tubelet serves for holding the plug pin of an optical plug. The invention permits mechanical decoupling of the operation of plugging and coupling a plug pin from the operation of adjusting and positioning the light-guiding structures contained in the waveguide tubelet.

Abstract: A fiber optic connector including a ferrule surrounding an optical fiber and a hub engaging the ferrule. The hub includes a front portion having first and second opposing surfaces and first and second tapered regions extending from the first and second opposing surfaces to a front face. A housing includes an anti-rotation seat configured to engage the first and second opposing surfaces, the anti-rotation seat including parallel first and second contact lines positioned at a front of the anti-rotation seat. A spring within a chamber of the housing biases the ferrule through a bore in the front of the housing. The first tapered region of the hub engages the first contact line and the second tapered region engages the second contact line when the hub and ferrule are in a first rotational position so that the optical fiber is maintained at a known orientation with respect to the connector.

Abstract: A system and method for fabricating an array of multiple optical fibers is disclosed. The method comprises providing a substrate having a plurality of guides formed therein each penetrating through the substrate, the substrate having one or more via holes in fluid communication with the plurality of guides. The plurality of optical fibers is disposed with respective guides, each of the optical fibers being placed with a corresponding one of the guides. An adhesive is injected into the one or more via holes, the adhesive fixing the optical fibers in the respective guides of the substrate.

Abstract: The present invention provides a method of fabricating a multi-fiber array in which optical fibers are actively aligned to their target positions. The method includes providing an array member for receiving optical fibers, forming in the array member through-holes, placing the optical fibers in the respective through-holes, applying adhesive into the respective through-holes, adjusting position of each optical fiber so that the optical fibers are aligned in accordance with reference measurements, and curing the adhesive to fix the optical fibers aligned in the respective through-holes.

Abstract: A method for optically joining an optical fiber array holder with an opponent member includes: disposing the plurality of optical fibers extending from the end face in a fiber array holder; polishing an end face of each of the plurality of optical fibers disposed in the fiber array block; removing the fiber array block from the plurality of optical fibers; and placing the plurality of optical fibers in corresponding guides formed in a waveguide substrate, the polished end faces of each of the plurality of optical fibers extending to an opponent member.

Abstract: An improved linear polarization maintaining fiberoptic array and a method of making the array are disclosed. The fibers of the array are seated in V-grooves formed in two silicon plates, which are then approximated and bonded together to hold the fibers securely therebetween. The terminal portions of the fibers are disposed in alumina, glass or zirconium ferrules, which protect the fibers from distortion and degradation of their extinction ratios, caused by asymmetric external pressure of the housing. Using the method of manufacture disclosed herein, it is possible to test each fiber prior to its incorporation in the array.

Abstract: A pump light source for Raman amplification, comprising: a fixed module on which at least diode module, an electronic device for driving and controlling the laser diode module and a photodiode for monitoring optical output in the laser diode module are mounted; and an additional module comprising a prescribed number of module cards, each of the module card being removably connected to the fixed module and mounting thereon at least one laser diode module.

Abstract: A housing for a coupling configuration for injecting or extracting optical signals of at least one optical data channel into or from an optical conductor has a housing body. At least one groove is constructed in the housing body, in particular a V-shaped groove, which serves to hold at least one mounting tubelet. At least one recess is formed in the housing body that at least partially includes the base of the groove such that light exiting or entering the mounting tubelet laid in the groove can transilluminate the base of the groove.

Abstract: A multi-fiber alignment system is provided for actively aligning optical fibers to an optical waveguide base on alignment status between each optical fiber and a corresponding optical device. Each of the optical fibers is held by bonding agent on a thermal pad from which radiation melts the bonding agent during adjustment of the optical fiber, and the optical fiber is fixed in its position by solidifying the bonding agent when being accurately aligned to a corresponding optical device.

Abstract: In an opto-electronic module including an opto-electronic unit and a receptacle, the receptacle has an outer indentation. When the module is assembled, the receptacle is held in a fixture with a projecting lip that fits into the indentation. After optical alignment, the receptacle is fastened to the opto-electronic unit by welding. The projecting lip prevents the receptacle from moving during the welding process, thereby assuring that optical alignment is maintained.

Abstract: The present invention provides a module for optical transmitter formed as an opto-electronic integrated circuit (OEIC) for reducing the heat generated at a driver circuit for modulator and stabilizing the thermal fluctuation in an optical modulator.

Abstract: An optical module comprising a flexible circuit board adapted for mounting the optical module onto a printed circuit board (PCB). The flexible circuit board includes circuitry to effectively match impedances between the optical module components and the electrical circuitry on the PCB mounted close to the active component. The flexible circuit board may also include circuit components to filter the power supply voltage and provide a ground layer to reduce ground loop currents. In separate embodiments, the flex board can be mounted to the PCB at different relative vertical locations. Also disclosed are multiple circuits appropriate for different optical modules that include: laser diodes, avalanche photodiodes, avalanche photodiodes with a transimpedance amplifier, PIN photodiodes, and other optical components in various combinations.

Abstract: An optical module that is easy to manufacture and may arrange and position an optical element mounting substrate and a package with high precision is provided. A substrate side positioning groove portion is formed in an optical element mounting surface of the optical element mounting substrate on which an optical element is mounted, and a package side positioning groove portion is formed in the package on which the optical element mounting substrate is arranged. The optical element mounting substrate and the package are overlapped with each other with the substrate side positioning groove portion and the package side positioning groove portion facing each other. An optical fiber that is a positioning member is inserted between the positioning groove portions. Thus, the optical element mounting substrate and the package are positioned relative to each other. The respective positioning groove portions on the substrate side and on the package side may readily be formed with high precision.

Abstract: In a method for molding an optical fiber fusion spliced portion, a mold coating is formed on a bare fiber portion of a fusion spliced portion of the optical fibers, using a resin compound having the characteristics where in a cured state, the tensile elongation is 70% or more and the tensile strength is 20MPa or more.

Abstract: A copper and optical fiber filling material that comprises a hydrocarbon component, which is semisolid at use temperatures in combination with an antioxidant system comprising of (a) sulfur containing primary phenolic antioxidant; (b) a mixture of mono- and di-alkyl butyl/octyl diphenylamine; (c) an organic phosphite or phosphonite and (d) optionally one or more hindered phenol antioxidants exhibits excellent oxidative stability.

Abstract: A flexible innerduct structure is configured to contain a cable within a conduit. The innerduct structure includes a pair of adjacent strip-shaped layers of flexible material that are joined along their longitudinal edges to define a channel through which the cable can extend longitudinally through the innerduct structure between the layers. The adjacent layers have differing widths between their longitudinal edges, whereby the wider layer bulges away from the narrower layer to impart an open configuration to the channel. Other features of the innerduct structure relate to the material of which it is formed. Such features includes the structure of the material, such as a woven structure, and further include properties such as melting point, tensile strength, elongation, coefficient of friction, crimp resistance and compression recovery.

Abstract: A system and method for an endoscopic optical coherence tomography (OCT) system based on a CMOS-MEMS mirror to facilitate lateral light scanning. The laser scanning scope, adapted to the instrument channel of a commercially-available endoscopic sheath, allows for the real-time cross-sectional imaging of living biological tissue via direct endoscopic visual guidance. A conventional rod lens imaging system may be used for the visual guidance. The MEMS mirror is preferably actuated using either or both of a thermal-mechanical or electrostatic actuation system. More than one MEMS micromirror may be used in a single system for 3D imaging.

Abstract: A method of forming an optical light manifold that includes forming a faceted optic, forming an optical faceplate, joining the faceted optic to the optical faceplate to define a cavity therebetween and filling the cavity with a fluid.

Abstract: An ultrathin optical panel, and a method of producing an ultrathin optical panel, are disclosed, including stacking a plurality of glass sheets, which sheets may be coated with a transparent cladding substance or may be uncoated, fastening together the plurality of stacked coated glass sheets using an epoxy or ultraviolet adhesive, applying uniform pressure to the stack, curing the stack, sawing the stack to form an inlet face on a side of the stack and an outlet face on an opposed side of the stack, bonding a coupler to the inlet face of the stack, and fastening the stack, having the coupler bonded thereto, within a rectangular housing having an open front which is aligned with the outlet face, the rectangular housing having therein a light generator which is optically aligned with the coupler. The light generator is preferably placed parallel to and proximate with the inlet face, thereby allowing for a reduction in the depth of the housing.

Abstract: An optical fiber for signal amplification comprises a core, doped with at least 15% phosphorus by weight and a rare earth ion sufficient to provide amplification of an optical signal. The fiber also comprises a clad layer surrounding the core with an inner portion and an outer portion. The refractive index of the inner portion of the clad layer is lower than that at the outer radius of the core region. This depressed inner clad portion serves to confine electromagnetic radiation within a selected wavelength range to substantially only the core.

Abstract: After a wide-band DCF is wound around a bobbin to form an optical fiber coil 32, the latter is removed from the bobbin and placed into a bundle state (the state where the increase in transmission loss in the wavelength band of 1.55 &mgr;m caused by distortions in winding is reduced by 0.1 dB/km or more) released from distortions in winding. A resin 42 is used as a coil-tidying member so as to secure the optical fiber coil 32 to a storage case 40 at four positions. Both ends of the optical fiber coil 32 are connected to pigtail fibers at fusion-splicing parts 44, respectively. Even when the storage case 40 is closed with a lid after the optical fiber coil 32 is secured to the storage case 40 with the resin 42, there remain interstices within the bundle of the optical fiber coil 32 and a space between the optical fiber coil 32 and the storage case 40. As a result, even when the optical fiber coil 32 in a bundle state is accommodated in the storage case 40, transmission loss and the like would not increase.

Abstract: Unit (100) comprising a portion of holey optical fibre (12) having a length Lc comprising a core region (13) and a cladding region (14), said cladding region (14) comprising, in turn, a plurality of holes passing through it longitudinally, said holes having a respective diameter and being spaced, two by two, according to a respective pitch, said unit comprising also a temperature adjusting device (16) for bringing and maintaining the holey optical fibre (12) at temperature values T selectable in a predetermined interval of temperatures Tx-Ty.

Abstract: A higher order mode stripping optical fiber having a core surrounded and a cladding layer surrounded by a coupling coating having a higher refractive index than the higher order mode effective index and wherein the cladding-coating interface between the cladding and the coupling coating is located at a radius <55 microns. The measured cutoff wavelength of the fiber is preferably >1500 nm. Such fibers are particularly effective at attenuating unwanted higher order modes and are useful in Dispersion Compensating modules (DCM's). Modules and systems utilizing the higher order mode stripping fiber are also described.

Abstract: Disclosed is a dispersion compensating and dispersion slope compensating single mode optical waveguide fiber. The refractive index profiles of waveguide fibers in accord with the invention are disclosed and described. These index profiles provide a waveguide fiber having negative total dispersion and negative total dispersion slope so that a standard waveguide fiber is compensated over an extended wavelength range. A telecommunications link using the fiber in accord with the invention is also disclosed and described. A standard fiber to compensating fiber length ratio in the range of 1:1 to 3:1 is shown to give optimum link performance with respect to limiting non-linear dispersion effects.