Abstract: A closure housing includes a plurality of housings. At least one of the housings is a concave housing with an open face. At least one layer, such as for example an elastomeric film, surrounds one or more cables to define one or more wrapped cables. A portion of each of the wrapped cables is adapted to be interposed between the housings.

Abstract: A microreplicated article is disclosed. The article includes a web including first and second opposed surfaces. The first surface includes a first microreplicated structure having a plurality of first features. The second surface includes a second microreplicated structure having a plurality of second features. Corresponding opposed features cooperate to form a lens features.

Abstract: An apparatus for casting a patterned surface on both sides of a web. The apparatus includes a first patterned roll; a second pattered roll; and a means for rotating the first and second patterned rolls such that their patterns are transferred to opposite sides of the web while it is in continuous motion. During this process, their patterns are maintained in continuous registration to within at least 100 microns, and preferably at least 20 microns.

Abstract: The present invention relates to increasing the photosensitivity of optical fibers. One aspect of the present invention comprises a method for rapidly diffusing hydrogen or deuterium into an optical fiber from a gas mixture having a low total hydrogen content to generate changes in the refractive index of the optical fiber. The resulting photosensitive fiber may be used to create optical devices including Bragg gratings and Bragg grating-based devices.

Abstract: A filament guide comprises a support tube having an internal wall defining an axial channel to receive a length of a filament. The axial channel provides containment for a filament closure, surrounding at least a portion of the filament and in contact with at least a portion of the internal wall. The filament closure includes a portion of frozen fluid, such as water that provides an ice bearing including an orifice to allow movement of the length of the filament through the filament closure. Suitable filaments include non-conducting filaments especially optical fibers.

Abstract: A sprayable coating composition for a bare portion of an optical fiber that includes a refractive index grating having a characteristic wavelength response. A coating composition comprises a curable composition having a viscosity from about 0.05 Pa-sec to about 0.30 Pa-sec for spray application to cover the bare portion of the optical fiber, to protect the refractive index grating. A photoinitiator reacts with actinic radiation in the presence of oxygen to cure the curable composition covering the bare portion of the optical fiber. The characteristic wavelength response of the grating exhibits substantially linear variation between a lower limit of temperature and an upper limit of temperature when the curable composition has a glass transition temperature either above the upper limit of temperature or less than about 30° C. above the lower limit of temperature.

Abstract: A fiber recoating process and a recoated optical fiber formed by the process that comprises the steps of providing an optical fiber having a coating and cutting a first cut boundary spaced from a secondary cut boundary to mark an internal section of the coating that has opposing sides. Removal of the coating from at least one of the opposing sides provides a pared intervening layer and further forms a first transition region opposite a second transition region. Each of the first transition region and the second transition region has a substantially wedge-shaped contour. Solvent treatment of the pared intervening layer weakens the bond between the coating and the optical fiber between the first cut boundary and the second cut boundary before displacing the coating from the optical fiber to provide the stripped optical fiber. The stripped optical fiber includes a section of optical fiber, the first transition region and the second transition region.

Abstract: A fiber recoating process and a recoated optical fiber formed by the process that comprises the steps of providing an optical fiber having a coating and cutting a first cut boundary spaced from a secondary cut boundary to mark an internal section of the coating that has opposing sides. Removal of the coating from at least one of the opposing sides provides a pared intervening layer and further forms a first transition region opposite a second transition region. Each of the first transition region and the second transition region has a substantially wedge-shaped contour. Solvent treatment of the pared intervening layer weakens the bond between the coating and the optical fiber between the first cut boundary and the second cut boundary before displacing the coating from the optical fiber to provide the stripped optical fiber. The stripped optical fiber includes a section of optical fiber, the first transition region and the second transition region.

Abstract: A fiber recoating process and a recoated optical fiber formed by the process that comprises the steps of providing an optical fiber having a coating and cutting a first cut boundary spaced from a secondary cut boundary to mark an internal section of the coating that has opposing sides. Removal of the coating from at least one of the opposing sides provides a pared intervening layer and further forms a first transition region opposite a second transition region. Each of the first transition region and the second transition region has a substantially wedge-shaped contour. Solvent treatment of the pared intervening layer weakens the bond between the coating and the optical fiber between the first cut boundary and the second cut boundary before displacing the coating from the optical fiber to provide the stripped optical fiber. The stripped optical fiber includes a section of optical fiber, the first transition region and the second transition region.

Abstract: A colored adhesive useful for an optical fiber connection or termination, containing an adhesive component having a viscosity between about 200 centipoise and about 5000 centipoise, a colorant which is soluble in the adhesive component having a first color before exposure to radiation having a wavelength of from about 400 to about 1100 nanometers, and a second color after exposure to radiation, and an initiator system to cure the adhesive composition by exposure to the radiation.

Abstract: The invention provides a process for fabricating a flexible printed circuit with at least one etched or plated feature on each major surface of said flexible circuit, comprising the steps of providing an input material with two major surfaces, including a dielectric substrate and at least one conductive base layer, laminating a photoresist with a cover sheet onto at least one major surface of the input material, and printing an image onto the cover sheet or removing the coversheet and printing the image onto the photoresist directly.

Abstract: A fiber optic connector including a holder for one ore more optical cables, each optical cable having an optical fiber surrounded by strengthening fibers, both of which are surrounded by at least one polymeric coating layer. The cable is stripped in a layerwise manner such that an area of exposed fiber is succeeded by an area of exposed strengthening fibers, succeeded by an area of coated cable. A visible light curable adhesive is injected into the holder and cured by exposure to visible light for up to about 30 seconds, bonding the optical fiber layers and the holder into a unified structure.

Abstract: A fiber optic connector including a holder for one ore more optical cables, each optical cable having an optical fiber surrounded by strengthening fibers, both of which are surrounded by at least one polymeric coating layer. The cable is stripped in a layerwise manner such that an area of exposed fiber is succeeded by an area of exposed strengthening fibers, succeeded by an area of coated cable. A visible light curable adhesive is injected into the holder and cured by exposure to visible light for up to about 30 seconds, bonding the optical fiber layers and the holder into a unified structure.

Abstract: A method for the manufacture of a matrix on a substrate, said matrix being particularly useful in the formation of color filter elements, the process comprising the steps of:a) providing an imageable article comprising a substrate having on at least one surface thereof a black layer,b) directing energy of sufficient intensity at said black layer to transparentize black layer,c) said directing of energy being done so that black layer is removed in some areas, but is not removed in other areas so that borders of black layer surround areas from which black layer has been removed.A preferred method deposits colorant material within the open areas of the matrix by thermal transfer, e.g., laser induced thermal transfer, of colorant material to form a filter element.

Abstract: A process for forming an image on a transparent or translucent substrate comprising the steps of providing an imageable element comprising a transparent or translucent glass or polymeric film having a coating of a black metal on one surface thereof, directing radiation in an imagewise distributed pattern at said black metal layer with sufficient intensity to substantially increase the light transmissivity of the medium in the irradiated region in an imagewise distributed pattern, said element having no layers comprising a thermally activated gas-generating composition. The image comprises residual black metal on the film base, and may be used for overhead transparencies, contact negatives/positives, and the like.

Abstract: A Z-axis adhesive is produced by dispersing electrically-conductive particles in an organic binder and then imagewise exposing the material to electromagnetic radiation, preferably from a laser or a flash lamp, under conditions sufficient to transfer the particles from the binder to a receptor in a patterned fashion such that the resulting adhesive is a Z-axis conductor in the patterned areas. The patterned adhesive can then be used to establish electrical interconnection between facing electrodes of a number of different structures including semiconductor chips and a flexible printed circuit board.

Abstract: Various catalyst precursors are used for the thermal decomposition of azide-containing polymers and oligomers. The catalyst precursors are organometallic complexes which upon thermolysis are capable of liberating at least one coordination site, thereby generating a catalyst for the thermal decomposition of the azide-containing polymer or oligomer.

Abstract: Color filter elements are prepared by the laser induced thermal transfer of colorant from a color donor to a transparent, non-birefringent substrate such as glass or polymeric film. Transparent pigments which are less prone to migration, more thermally stable, and considerably more lightfast than dyes can be used to prepare the color filter elements of this invention. Color filter elements are useful for elements in color displays such as liquid crystal display devices.

Abstract: Laser-addressable thermal transfer donor elements for producing color proofs, printing plates, films, printed circuit boards, and other media are disclosed. The thermal transfer donor elements include a substrate with a gas-producing polymer layer thereon, and an array of discrete nanostructured elements embedded within the gas-producing polymer layer. The gas-producing polymer layer has a thermally available nitrogen content of greater than about 10 weight percent. Each of the nanostructured elements includes an elongated structure conformally coated with a radiation absorbing material. A thermal mass transfer material (e.g., a metal or colorant such as a dye or pigment) is included in or over the gas-producing polymer layer.

Abstract: Laser-addressable thermal transfer donor elements for producing color proofs, printing plates, films, printed circuit boards, and other media are disclosed. The thermal transfer donor elements include a substrate having a microstructured surface. The microstructured surface contain a plurality of randomly positioned discrete protuberances of varying heights and shapes. The donor elements further include a black metal layer on the microstructured surface and a gas-producing polymer layer over the black metal layer. The gas-producing polymer in the gas-producing polymer layer has a thermally available nitrogen content of greater than about 10 weight percent. A thermal mass transfer material (e.g., a colorant such as a dye or pigment) is included in or over the gas-producing polymer layer.