Abstract: A proximal connector includes a stainless steel, cone-shaped ferrule enclosing a proximal end of the optic fiber element. The ferrule is inserted within a matching aperture of a receiving block, which is also made of stainless steel. The matching shapes of the ferrule and the aperture of the receiving block ensure effective heat transfer from the ferrule into the receiving block. The receiving block may be provided with cooling vanes, and air may be circulated over the cooling vanes, to dissipate heat transferred to the receiving block from the connector. Both ferrule and the aperture are axially symmetric such that any rotation of the proximal connector while inserted into the receiving block does not change the location of the entrance aperture of the optic fiber element. The proximal connector also includes a case having an indented ring.

Abstract: A system for communicating a programming data stream and a data stream containing pieces of local content data that are going to be inserted into a local content space in the programming data stream at some predetermined time is provided in which the programming data stream and the local content digital data stream are transmitted to a set-top box in a house of a user, the set-top box stores a predetermined portion of the pieces of local content data based on predetermined criteria, and the set-top box identifies a local content space in the programming data stream.

Abstract: A ureteral catheter device composed of a catheter made of light transmitting material, the catheter having a distal end and a proximal end, and being formed to have a drainage lumen that extends between, and is open at the distal and proximal ends, and a second lumen that extends substantially parallel to the drainage lumen; and a single fiber optic filament housed in the second lumen, the fiber optic filament being provided to conduct light in a manner to illuminate the catheter.

Abstract: A prosthetic fabric comprises a sheet textile structure capable of two different shapes, one being a flat, unfolded arrangement and the other being an ordered, gathered arrangement, and at least one continuous filiform element having two free gripping ends. The continuous filiform element is connected to the sheet structure by a plurality of catching points distributed over a surface of the sheet, along and on either side of a neutral axis that is parallel to one of the principal dimensions of the sheet. The structure of the fabric is such that pulling on the two gripping ends of the continuous filiform element generates the folded arrangement wherein the sheet is ordered transversely and on either side of the neutral axis and pulling on only one gripping end of the continuous filiform element extracts the continuous filiform element from the sheet.

Abstract: A method and apparatus which can couple a high intensity point source, such as from a single fiber, to a fiber bundle. A bundle of fibers is fed though a hole in the light post. A removable potting compound is applied to the tip of the bundle to hold the fibers together for polishing. The tip of the bundle is polished and then the potting compound is removed from the tip of the bundle. A window is placed over a light inlet of the hole so as to seal the bundle. A point source cable introduces a point source of light to the bundle of fibers. A ferrule is provided around the point source cable, having a diameter sized corresponding to a diameter of said light post. The ferrule and the bundle of fibers are clamped with a split sleeve which extends therebetween.

Abstract: The power handling capability of polymer fibers is increased by broadening an input intensity profile, which is typically Gaussian, without significantly decreasing the efficiency of coupling light into a polymer fiber. The method for increasing the power handling capability of polymer fibers includes the steps of: a) emitting light having a Gaussian intensity profile from a fiber light source; b) broadening the Gaussian intensity profile so that energy at the center of the Gaussian intensity profile is distributed to the perimeter to reduce the peak power intensity of the emitted light before it is launched into the polymer fiber; c) transmitting the emitted light into at least one polymer fiber. Preferably, a fused bundle is used to broaden the intensity profile and preferably the fused bundle has an angled input end face.

Abstract: A method and apparatus which can couple a high intensity point source, such as from a single fiber, to a fiber bundle. A bundle of fibers is fed though a hole in the light post. A removable potting compound is applied to the tip of the bundle to hold the fibers together for polishing. The tip of the bundle is polished and then the potting compound is removed from the tip of the bundle. A window is placed over a light inlet of the hole so as to seal the bundle. A point source cable introduces a point source of light to the bundle of fibers. A ferrule is provided around the point source cable, having a diameter sized corresponding to a diameter of said light post. The ferrule and the bundle of fibers are clamped with a split sleeve which extends therebetween.

Abstract: The invention provides nucleotide probes, kits and methods for the detection and differentiation of Mycobacteria. The gene probes, kits and methods are useful for the diagnosis of tuberculosis and/or for epidemiological study tools for investigating the progress of infections caused by Mycobacteria.The gene probes as provided comprise part or all of nucleotide sequences provided in the soecification or an allele or a derivative of the nucleotide sequences.The gene probes can distinguish between M.tuberculosis, M.bovis and BCG as well as being able to distinguish between different strains of M.tuberculosis. The probes do not show significant hybridisation to nucleic acids from M.paratuberculosis, M.intracellulare, M.scrofulaceum, M.phlei, M.fortuitum, M.kansasii, M.avium, M.malnioense. M.flavescens, M.gordonae and M.chelonei.

Abstract: An electromagnetic radiation source, such as an arc lamp, is located at a point displaced from the optical axis of a concave toroidal reflecting surface. The concave primary reflector focuses the radiation from the source at an off-axis image point that is displaced from the optical axis. The use of a toroidal reflecting surface enhances the collection efficiency into a small target, such as an optical fiber, relative to a spherical reflecting surface by substantially reducing aberrations caused by the off-axis geometry. A second concave reflector is placed opposite to the first reflector to enhance further the total flux collected by a small target.

Abstract: The proximal connector includes a stainless steel cone-shaped ferrule enclosing a proximal end of the optic fiber element. The ferrule is inserted within a matching aperture of a receiving block which is also made of stainless steel. The matching shapes of the ferrule and the aperture of the receiving block ensure effective heat transference from the ferrule into the receiving block. Both ferrule and the aperture are axially symmetric such that any rotation of the proximal connector while inserted into the receiving block does not change the location of the entrance aperture of the optic fiber element. The proximal connector also includes a case having an indented ring. A ball plunger biasing mechanism is mounted within the aperture of the receiving block and is positioned for engaging with the indented ring only while the proximal connector is fully and securely inserted within the aperture.

Abstract: A method and apparatus for coupling high intensity light into a low melting temperature optical fiber which uses a high temperature, low NA optical fiber as a spatial filter between a source of high intensity light and a low melting temperature, low NA optical fiber. The source of light may be a high intensity arc lamp or may be a high NA, high melting temperature optical fiber transmitting light from a remote light source.

Abstract: A device which adjusts the angle of illumination of light exiting a fiber optic light guide. A first light guide has a first numerical aperture for emitting light from a light source, and light exiting the first light guide has a first light intensity angular profile. A second light guide has a second numerical aperture for receiving the light from the first light guide, and light exiting the second light guide has a second light intensity angular profile. Light from the first light guide is dispersed by a device including at least a first surface interposed between the first light guide and the second light guide such that light from the first light guide having the first light intensity profile irradiates the first surface and the angular intensity profile of the light irradiating the second light guide is modified so as to cause the second light intensity angular profile to be modified. The first light guide preferably has a single fiber, and the second light guide preferably has a fiber bundle.

Abstract: The optical coupler couples light output from the single fiber optic into the fiber optic bundle while preserving the numerical aperture of the beam output from the single fiber optic. The optical coupler also preserves any uniformity in s the beam output from the single fiber optic. The optical coupler includes a collimating device such as a magnifying lens and a diffusing device such as a hemispherical lens array. The collimating device collimates the beam output from the single fiber optic into a parallel beam having a diameter substantially equal to a diameter of the fiber optic bundle. The diffuser device diverges the collimated beam for input into the fiber optic bundle by an amount sufficient to reproduce the numerical aperture of light output from the single fiber optic. A wide variety of optical diffuser devices are disclosed, including spherical convex lens arrays, cylindrical lens arrays, pyramidal lens arrays and fresnel lenses.

Abstract: A luminaire for use during a medical procedure utilizes a single optic fiber for providing a beam of light having an initial beam width and an initial beam energy. The width of the beam is adjustable without substantially decreasing the beam energy, and the beam of adjusted width can be directed onto a surgical field. A headband for mounting a luminaire is formed of a perspiration-absorbent cloth strip, has hook-and-clasp engagement, and includes a luminaire mount.

Abstract: An electromagnetic radiation collecting and condensing optical system includes a number of cascaded concave reflectors and a number of electromagnetic radiation or light sources which radiate light energy onto the concave reflectors in such manner that the energy from each source is combined by the reflectors into a single output which is used to illuminate a target, such as a single core optical fiber.

Abstract: A gradient index (GRIN) lens couples light from a single fiber optic into a fiber bundle or directly into the input port of an illumination device, such as a medical illumination device. The single fiber optic provides a high intensity beam of light having a high NA. An entry face of the GRIN lens is positioned adjacent to an exit aperture of the fiber within the near field of the fiber and thereby receives a beam having a substantially uniform cross-section, rather than a Gaussian cross-section as would occur with the GRIN lens positioned in the far field of the fiber. An exit face of the GRIN lens is positioned adjacent to the fiber bundle or input port of the illumination device. As such, the GRIN lens effectively images the exit aperture of the fiber of the input aperture of the fiber bundle as input port.

Abstract: The present invention provides a variable attenuator for an optical transmission system having a disc-like masking plate with apertures (or image zones) formed in an arcuate control area at the periphery of the plate. Within each aperture, at least one opaque masking member is provided extending outward from the origin to the perimeter of the aperture and having a masking surface with an incremental masking area which continuously increases in magnitude with increasing radial length of the aperture. The perpendicular cross-section of each masking member with respect to the optical axis preferably forms a geometric shape having straight-line edges extending radially outward from the origin of the aperture. In the preferred embodiment, a plurality of masking members are utilized (as a pair or sets of pairs).

Abstract: The proximal connector includes a stainless steel cone-shaped ferrule enclosing a proximal end of the optic fiber element. The ferrule is inserted within a matching aperture of a receiving block which is also made of stainless steel. The matching shapes of the ferrule and the aperture of the receiving block ensure effective heat transference from the ferrule into the receiving block. Both ferrule and the aperture are axially symmetric such that any rotation of the proximal connector while inserted into the receiving block does not change the location of the entrance aperture of the optic fiber element. The proximal connector also includes a case having an indented ring. A ball plunger biasing mechanism is mounted within the aperture of the receiving block and is positioned for engaging with the indented ring only while the proximal connector is fully and securely inserted within the aperture.

Abstract: A removable light source is provided for use with the optical coupling system. The light source is mounted to a removable assembly for slidable insertion into, and removed from, a housing containing the optical coupling system. The removable assembly includes positioning elements for maintaining precise alignment of the light source with optical components mounted within the housing. In one embodiment described herein, precise alignment is achieved by employing six mounting pads on outside surfaces of a base of the removable assembly. Three of the mounting pads are aligned along a first plane. Two are aligned along a second plane perpendicular to the first. The remaining pad is aligned along a third plane perpendicular to both the first and second planes. The light source is mounted to the base in a precise fixed relationship with the mounting pads. The removable assembly is inserted within a slot formed in the housing of the optical coupling system.

Abstract: The present invention comprises a system for condensing and collecting electromagnetic radiation having a primary reflector disposed on one side of an electromagnetic radiation source and a target disposed on the opposite side of the source. The primary reflector includes a concave reflecting surface portion, which preferably forms the entire surface of the reflector. The concave surface portion of the primary reflector, which is preferably of a substantially toroidal shape, defines an optical axis and a primary center of curvature disposed along the optical axis. The source of electromagnetic radiation is located approximately on the optical axis but axially offset a first distance from the center of curvature in a direction toward the concave surface portion.