Abstract: An optical coupler 13 comprises a monolithic block of transparent optical material with a pair of opposite sides configured so that an optical signal can be transmitted between a first device 12 and a second device 14 with internal reflections within the coupler 13. Because the optical coupler 13 is monolithic, thermal expansions and contractions in response to extreme fluctuations are uniformly distributed throughout the coupler 13 and therefore do not significantly distort the optical signal.

Abstract: The invention discloses a cylindrical optical radiating device for obtaining controlled light distribution in a cylindrical pattern from an optical fiber. The device is constructed of a solid cylindrical tip made from material containing an optical scattering material in which a tapered central lumen having a conical shape has been drilled, cast or bored. Light emerging from the end of the fiber is radiated out in a cylindrical pattern through the use of the tapered central lumen.

Abstract: An optical fiber connector has a tubular housing which has a slot formed through a corresponding upper periphery and lower periphery thereof. A securing plate is allowed to be positioned inside the slot with two distal ends thereof substantially protruding slightly out of the slot. A substantially elliptical hole is formed at the center of the plate with the longer axis thereof in substantially horizontal direction allowing to be penetrated by a fiber.

Abstract: A ferrule for an optical connector is of glass which is strengthened by ion-exchange.

Abstract: Two types of structural elements each employable for a light diverging/converging device are disclosed. One is a double circuit diverging ferrule which comprises a first semicylindrical ferrule element, a second semicylindrical ferrule element and a cylindrical bushing through which both the ferrule elements are press-fitted. The other is a single circuit converging ferrule which comprises a first semicylindrical ferrule element, a second solid semicylindrical ferrule and a cylindrical bushing through which both the ferrule elements are press-fitted. Three types of light diverging/converging devices, i.e., a diverging ratio variable type 1.times.2 circuit light diverging/converging device, a diverging ratio variable type 2.times.2 circuit light diverging/converging device and a 1.times.2 circuit light diverging/converging device having a constant diverging ratio each of which is constructed by using the aforementioned structural elements are also disclosed. A 2.times.

Abstract: A polymer-insulated crush-resistant high-strength optical waveguide fiber cable buffered by a braided layer of porous polytetrafluoroethylene fibers to provide strength, a low thermal expansion coefficient buffer, and strong environmental protection.

Abstract: The total internal reflection modulator has an electrode array distributed across an area of the reflecting surface of the electro-optic material. The electrode array has multiple sets of electrodes forming an outer rectangle interdigitated with at least one reference set of electrodes forming a inner diamond. A diamond-shaped area with no electrodes is preferably symmetrically within the inner electrodes of the electrode array on the reflecting surface. The uniform voltage difference between the electrodes and the varying lengths of the electrodes creates a fringe electrical field in the electro-optical material and an optical phase grating to diffract the incident light on the reflecting surface. The zero order nondiffracted light becomes the output beam. The optical phase grating will control the incident beam's optical profile at the modulator (near field) and hence the imaged spot size at a focus at the image plane (far field).

Abstract: The basic embodiment of the present invention comprises an optical fiber having cores and a claddings, and core-extensions, wherein the individual core-extensions are built onto the core end facets in a shape of the diverging horn-like structure, with the sectional area increasing gradually as the individual core-extensions extend farther away from the core end facets to merge together and form a common core-extension for light mixing and coupling. The core-extension may be made of a photo-reactive material to be shaped after the diverging radiation pattern of light emitted from the core end facets.

Abstract: A semiconductor active waveguide optical crossbar switch to allow optical signals to be routed to any number of ports with no net attenuation of signal strength. The optical crossbar switch is comprised of a network of optical waveguides wherein both lateral and transverse carrier confinement is provided. Redirection of the optical waveguide is accomplished by means of total internal reflectance turning mirrors. Furthermore, the optical waveguides are formed such that electrical current may be applied to the semiconductor structure to amplify the optical signal travelling therein. Electro-absorption switches formed from distinct metallic contacts overlying portions of the optical waveguides amplify the optical signal travelling through the waveguide underneath the switch if sufficient electrical stimulation is applied to the switch.

Abstract: An end connector for connecting a tubular support structure having at least one optic fiber associated with a fiber optic cable, to a terminal of an associated device. A housing member is configured with a passageway from a front end to a rear end for passing the tubular support structure therethrough. A clamping portion including a flexible sleeve and compression grommet are received and supported by both the housing and a compression nut which couples to the rear end of the housing. As the compression nut is threaded onto the rear end of the housing, the compression grommet is compressed, and in turn the flexible sleeve constricts to apply clamping pressure to the tubular support structure holding the optic fibers.

Abstract: The present invention is directed to a fiber optic sensor for analyzing pH which comprises (a) a fluorescence-based fiber optic sensor; and (b) a fluorescent dye-polymeric matrix in contact with the sensor, wherein the fluorescent dye is seminaphthorhodaflor-1-isothiocyanate, the polymer is a hydrogel selected from the group consisting of polyhydroxyethylmethacrylate, polyvinylpyrrolidone, cellulose, dextrans, and polysaccharides, and the dye is chemically bonded to the polymer.

Abstract: A woven material is described in which optical fibers are positioned and held in the material in a manner to maximize their optical efficiency. The material consists of fibers extending in both the warp and woof direction, the optical fibers are positioned in channels between the supporting fibers in the warp direction. The material is manufactured using conventional weaving equipment by positioning both the optical fibers and the warp fibers, and then weaving the woof fibers into place without bending the optical fibers. The fibers are thusly woven so that the optical fibers have zero warp. The woven grid-like mat can be coated with a protective material that either enables it to form a flexible sheet of ribbon or a rigid, hard, grid-like mat which has aligned zero warp optical fibers embedded therein. The material shown can be used to provide sensing, imaging or communications. It can be utilized for optical backplanes for optoelectronic systems or a housing for optoelectronic components.

Abstract: It is possible to utilize changes in the complex effective refractive index caused by bringing a metal membrane in close proximity to the core of an optical waveguide to form many devices. The invention described herein provides structures and processes that do so, the structure comprising a substrate, a lower cladding, a waveguide core, a removable upper cladding which supports a metal membrane, and an electrode for deflecting said membrane.Switchable devices using this structure include, but are not limited to, polarizers, mode converters, optical switches, Bragg devices, directional couplers and channel waveguides.

Abstract: The splice verification system of the present invention verifies the efficiency of an optical splice by measuring the scattered light escaping from the splice. Specifically, the preferred embodiment performs such scattered light measurement within a photodetection area which is substantially free of all ambient light. Furthermore, the verification system includes a reference power module which, prior to creating an optical splice, measures the level of the optical signal being transmitted out of the end of an active fiber. The present invention then provides means to correlate the level gauged as a reference signal level relative to the amount of scattered light lost from the optical splice. The ratio of these two measured light levels may then be used to determine whether the amount of scattered light lost from the optical splice is acceptable given the particular constraints of the optical system in which the splice is employed.

Abstract: An optical modulation system having cascade-coupled electro-optic modulator stages in either dual tandem or split tandem configurations. An electrical splitter derives multiple electrical drives for the multiple stages from a single modulating input signal. The multiple drive signals are linearly related in magnitude and preferably induce simultaneous antiphase (180.degree. out-of-phase) optical modulation in the tandem stages. While a double Mach-Zehnder cascade configuration could be used, at least one modulator stage might instead be a balanced-bridge interfometer-type modulator having at least one directional coupler. At least one directional coupler in such a configuration may be a .DELTA..beta. coupler. Application of bias voltages to the interferometer sections and to coupler sections by means of a parametric feedback loop is done in order to simultaneously enhance the linear modulation coefficient, minimize odd order distortions and null the even order distortions that are associated with biased .

Abstract: Optical wave-guides, e.g. fibres, for use as photonic amplifiers have a path region partly or, preferably, wholly composed as a silica/germania glass with 0.1 to 5000 ppm mole of Er.sup.3+ as a lasing additive and alumina to adjust the bandwidth, the Ge:Al mole ratio being more than 2.8, e.g. 1:0.001 to 0.25. It is surprising that low amounts of alumina have a useful and significant effect on the lasing bandwidth whereby frequency division multiplex is facilitated.

Abstract: In accordance with the invention an integrated optic device useful as a low level polarization independent optical tap comprises a pair of optical waveguides intersecting at an angle of 10.degree.-25.degree. to provide a tap signal in the range minus 20 dB to minus 60 dB. In a preferred embodiment for use in a passive repeater for undersea cable, the device comprises fiber-matching waveguides of phosphorus silicate glass on an oxide covered silicon substrate with a boron and phosphorus silicate cladding. The waveguides preferably intersect at an angle of 13.degree.-16.degree.. The preferred repeater further comprises a 3 dB coupler for averaging the power provided by two external pumping sources and a pair of wavelength division multiplexers for applying the pumping power to the outputs of the tap.

Abstract: An optical modulator is disclosed. The modulator is based upon an ARROW waveguide, consisting of a substrate, a lower cladding, an interference layer, and a core layer. An electronic element is formed in the structure to control the free-carrier concentration in the interference layer. The light is coupled by grating into the interference layer, where the free-carrier concentration is controlled by the element, which in turn controls the modulation of the light in the interference layer before it is coupled back to the core layer.

Abstract: A hollow waveguide for ultraviolet wavelength region laser beams incorporates a glass tube composed of a glass material exhibiting a high transmissivity with respect to ultraviolet rays and an excellent environment resistant property, and a metal film exhibiting a high reflectivity with respect to the ultraviolet rays and formed outside the glass tube. The glass tube serves as an inner surface of the waveguide. The ultraviolet wavelength region laser beams are transmitted while being reflected by the inner surface of the glass tube and by an interface between the glass tube and the metal film.

Abstract: An improved optical fiber for transmitting mid-infrared wavelength laser light in surgical instruments, includes, a heavy-metal oxide component, preferably GeO.sub.2 doped with heavier cations and anions, is capable of delivering of at least three watts of laser power continuously for more than ten minutes, without failure. This glass fiber has an .alpha.(dB/m) at 2.94.mu.m of 10, preferably less, and can transmit at least 27% of the IR through a thickness of one foot.