Abstract: Controllable fiber optic attenuators and attenuation systems are disclosed for controllably extracting optical energy from a fiber optic, and therefore attenuating the optical signal being transmitted through the fiber optic. In one aspect, material is removed from a portion of the fiber optic, thereby exposing a surface through which optical energy can be extracted. A controllable material is formed over the surface for controllably extracting optical energy according to a changeable stimulus applied thereto, which affects the refractive index thereof. In an improved embodiment, a controllable material is formed over the exposed surface for controlling the amount of optical energy extracted from the fiber optic, and a bulk material is formed over the controllable material, into which the extracted optical energy is radiated.

Abstract: An optical module that compensates for a stress induced displacement is realized by employing asymmetric ferrule and clip assemblies. In one embodiment, the optical module includes a ferrule and clip assembly having posts or vertical members joined thereto with welds positioned along the longitudinal or center axes of the posts. Importantly, however, the effective axis of rotation about which one of the welds rotates under an applied axial displacement is offset along the longitudinal axis. This offset causes the welds to rotate asymmetrically with respect to the rotational axes which are orthogonal to the stress induced displacement, and is advantageously used to compensate for any stress induced displacement of the fiber that is quadratic in nature. In another embodiment, the optical module includes an asymmetric ferrule and clip assembly wherein at least one weld is offset along from the post's longitudinal or center axis, breaking the left-right symmetry of the assembly.

Abstract: An optical fiber includes a core, a first cladding, a second cladding, and a third cladding. The core has a refractive index n.sub.0. The first cladding is formed around the core and has a refractive index n.sub.1. The second cladding is formed around the first cladding and has a refractive index n.sub.2. The third cladding is formed around the second cladding and has a refractive index n.sub.3. The refractive indices have relationships n.sub.1 >n.sub.2 >n.sub.3 and n.sub.1 >n.sub.0.

Abstract: A method of testing the quality of a splice at a remote location made between said optical cable and a subsequent optical cable. The method includes the step of connecting a first optical switch to the optical fibers contained within said cable. The first optical switch is connected to the optical fibers at a central office from where the optical cable originates. The first optical switch is connected to test equipment at the central office, wherein the first optical switch is capable of selectively connecting the test equipment to each of the optical fibers. A second optical switch is connected to the optical fibers in the subsequent optical cable on the opposite side of the splice. Portable test equipment is optionally connected to the second optical switch at the remote location. A portable controller is also taken to the remote location. The portable controller is used to control the first optical switch at the central office, via a telecommunications link.

Abstract: A plenum rated cable having a core that includes a transmission medium of a plurality of insulated conductors preferably having thereon an insulating layer of a fluorinated ethylene composition. A shield surrounds the insulated conductors and extends longitudinally within and parallel to the length of the cable and includes a first layer of aluminum material and a second layer of low temperature smoke resistant cellulose acetate or polypropylene. The first and second layers are bonded together. A drain wire drains leakage within the cable generated from the current and allows for easy termination of the shield to a connector. A thermoplastic jacket encloses the drain wire and longitudinally surrounds the shield. The jacket is made preferably of a polyvinyl chloride composition.

Abstract: In accordance with the invention, a switchable optical filter comprises an optical splitter coupled to an input waveguide, one or more output waveguides and a plurality of interferometer waveguides. A multiwavelength signal from the input waveguide is split into plural identical multiwavelength split signals which are directed into the interferometer waveguides. In the interferometer waveguides, a sequence of controllable phase shifters and reflective filters reflects specific wavelength signals from a respective interferometer waveguide into the splitter and then to a respective output waveguide. In a preferred embodiment, the splitting device comprises a directional coupler, and the filter comprises a Mach-Zehnder interferometer with a mid section including an alternating sequence of a phase shifter on at least one arm and reflective filters on each arm. The filter is particularly useful as a gain equalization filter, an ADM filter and in an optical cross connect.

Abstract: A device for adding and/or dropping a signal to a transmission line. First and second optical circulators are connected by at least one switchable grating reflector, whereby a grating reflector can be switched into or out of the connecting path between the two circulators. A plurality of optical signals, each centered about a different wavelength, is coupled to a first port of the first circulator; these signals appear at the second port thereof. If a grating reflector capable of reflecting .lambda..sub.i is switched into the circuit, the signal centered about .lambda..sub.i propagates from the second port of the first circulator and reflects from the grating reflector back into the second port and out of the third port. The remainder of the input signals that are not reflected by grating reflectors propagate into the first port and from the second port of the second circulator as an output thereof. Also, a signal at wavelength .lambda..sub.

Abstract: A multimode optical fiber includes an inner core and an outer core on the inner core having different refractive index profiles. The refractive index profile of the outer core is graded, while the refractive index profile of the inner core may be graded. The refractive index profiles have the same value at the inner core--outer core boundary.

Abstract: The fiber optic device in accordance with the present invention has a structure in which two fiber optic members are connected together, end faces thereof opposing each other. The input-side fiber optic member comprises cores extending in a predetermined direction and a light absorber surrounding the cores. The output-side fiber optic member comprises cores extending in a predetermined direction, and a cladding surrounding the cores. The input end face of the input-side member is inclined with respect to core axes therein. In this device, the angle of inclination of the input end face of the input-side member or the angle formed between the output end face of the output-side member and each core axis in the output-side member can be set to a value relatively near to 90.degree.. Accordingly, this device can be attached to a photodetector with relative ease. Also, a light receiving member formed by this attachment is relatively compact.

Abstract: The present invention relates to a method and a device for manufacturing a waveguide pattern in a waveguide connector. The waveguide connector comprising a topographic pattern is placed over a transparent polymeric multilayer laminate arranged on a rigid foundation, where at least one layer consist of a core and at least two other layers are formed of a cladding material, said cladding material surrounding said core layer, each on one side, and the cladding material having a lower refractive index than the core material. The waveguide connector is pressed towards the polymeric multilayer laminate so that the topographic pattern in the waveguide connector stands out in relief in the laminate to form the waveguide pattern in the waveguide connector and where the multilayer laminate is fixed in the waveguide connector after pressing.

Abstract: An arrangement for the bidirectional transmission and receiving of optical signals. At least one transmitting device and at least one receiving device, and an optical fiber for transmitting the optical signals are described. Provision is made for the at least one transmitting device and the at least one receiving device to be assigned directly to an effective optical area of the optical fiber. A filter for blocking optical signals having a wavelength from an associated transmitting device is also described.

Abstract: New, compact optical--optical switches and/or wavelength converters manufacturable with good tolerances and evincing all or some of the following properties,compactnessgood ON/OFF switching ratiospossibility of cascading and bidirectional operationpolarization-independence feasibilityvery fast switchingare being developed.This requires developing components making use of different-order modes to mix the information signal and the control signal and to separate them. The compact Converter Combiner MMIs of the invention make possible:1. converting a first fundamental mode into first-order modes,2. superposing the first-order modes and the images of a second fundamental mode,3. the MMI operates simultaneously as mode splitter for the participating modes.Back-conversion of the generated modes of higher order into their initial modes also is possible.

Abstract: A switch apparatus includes a carrier for an optical cable. The carrier supports the optical cable in a U-shaped configuration with parallel leg portions of the optical cable extending along opposite sides of the carrier. A pushbutton is supported by the optical cable. The pushbutton has actuation arms which engage the parallel leg portions of the optical cable. The optical cable is held by flexible arms which form channels into which the leg portions of the optical cable are snapped. Upon manual actuation of the pushbutton, the optical cable is deformed to reduce the intensity of a light beam transmitted through the optical cable.

Abstract: The optical scanner comprises a light source, an image sensor, a planar array of elongate optical waveguides, and input and output coupling optics for communicating light to and from the image transmission optics. The light source is adapted to direct light toward and reflect light from an object to be scanned. The planar array of elongate optical waveguides is formed in a substrate. Each of the waveguides include an input end and an output end and can be tapered along the length of the waveguide. The input optics disposed between the object and the waveguide array can include tubes, single lenses per waveguide, larger lenses per cluster of waveguides, a GRIN lens array or comparable mirror systems for directing light reflected from the object to be scanned to the input ends of the waveguides. The output optics disposed between the waveguide array and the image sensor can include lenses or mirror systems similar to that used for the input coupling optics.

Abstract: An optical device, and a method of producing the device, are disclosed. The device comprises a substrate and an optical waveguide component affixed to the z, substrate with a glass frit fusion seal formed and locked within a recessed void in the substrate, the glass frit fusion seal being the fused product of a low melting glass frit. The recessed void in the substrate includes a region for receiving the optical waveguide component and an intersecting region that secures the placement of the glass frit fusion seal. The optical waveguide component is affixed to the substrate in order to control temperature varying optical properties of the component.

Abstract: An optical power source is disclosed that collects the spectra of the light emissions created in a combustion chamber to provide its optical output signals that serve the needs of optical networks. The light spectra is collected by a collection ring serving as an optical waveguide.

Abstract: An all-optical modulator for modulating the output power of a high-power optical pump source is disclosed. More particularly, with the optical modulator of the invention, the output power of a CW fiber laser is modulated by a low-power laser, such as a diode laser. The modulator comprises two optical couplers which are preferably wavelength-selective and interconnected by a nonlinear single mode optical fiber with a high Raman gain. A laser system comprising a high-power pump laser, a fast signal laser with a suitable modulation depth and the optical modulator of the invention can advantageously employed in materials processing and graphics arts printing applications.

Abstract: A piezoelectric shutter is arranged in a comb pattern and presents a core. The comb is provided with at least one tooth constituting the shutter, the bore being arranged with elevation allowing the displacement of the shutter by the piezoelectric effect. The device is remarkable in that it comprises at least one bimorph arranged on the support, capable of being raised with respect to the support by the piezoelectric effect.

Abstract: A fiber optic interface for laser spectroscopic Raman probes incorporating a housing with a window enclosure. The fiber optic interface minimizes stray light interference from window back reflections and provides high photonic efficiency through refractive manipulation of emission and reception fields. The illumination fiber is surrounded by collection fibers. The fiber bundle formed by the illumination fiber and the collection fibers is formed into a conical shape, which creates a refractive surface on the illumination fiber and each of the collection fibers. The refraction at the end faces steers the illumination and collection patterns toward the axis of the illumination fiber. This results in the reflected portion of the illumination light being reflected toward the illumination fiber, and in the collection pattern being coincident with the illumination pattern.

Abstract: An optical fiber that controllably taps and distributes light propagating through an the optical fiber that comprises an optical fiber having multiple regions each having a different index of refraction from one another such that when light traverses the optical fiber along a length it travels from a region of one index of refraction to another region having a different index of refraction the light is sufficiently deflected such that it is distributed out a side of the optical fiber along its length. In a preferred embodiment, at point in the length of the fiber where a change in index of refraction occurs, light traversing the fiber is efficiently diverted out of the optical fiber through the side of the fiber. The light so diverted alternatively is refracted by one or more refractive regions, and alternatively focused by prism films applied to the exit side of the fiber where it may then be put to an advantageous use.