Abstract: Provided is a liquid crystal device including: a liquid crystal panel which includes first and second substrates supporting a liquid crystal layer in a sandwich manner and a sealing material disposed between the first and second substrate to seal the liquid crystal layer, and on which illumination light is irradiated from the rear side thereof; an optical plate disposed in the front side of the liquid crystal panel; and a control element that controls a display status of an image displayed on the liquid crystal panel, wherein: the liquid crystal panel includes a light receiving element that receives ambient light; and the light receiving element is disposed in a position where at least a portion of a light receiving surface thereof does not overlap the optical plate when seen from a plan view.

Abstract: A method for fabricating a LCD having enhanced aperture ratio and brightness includes: forming a gate line, a gate electrode, a common electrode and a common line in a first mask process; depositing a gate insulating layer covering the gate line, the gate electrode and the common electrode; forming an active layer on the gate insulating layer, and an ohmic contact layer on the active layer in a second mask process; forming a data line, a source electrode, and a drain electrode facing the source electrode in a third mask process; depositing a protective layer over the data line, the source electrode and the drain electrode; forming a pixel contact hole in a fourth mask process; and forming a pixel electrode, wherein the pixel electrode is connected to the drain electrode through the pixel contact hole in a fifth mask process using a reverse tapered photo-resist pattern.

Abstract: An optical device including (a) a substrate having an electro-optic effect; (b) a modulating optical waveguide formed on a surface layer portion of said substrate and forming an interference optical modulator for modulating input light; (c) an output optical waveguide formed on said surface layer portion of said substrate and connected to a downstream side portion of said modulating optical waveguide; and (d) a branching monitoring section for monitoring branched light of light propagated along said output optical waveguide and emitted from an outgoing end face of said substrate. The output waveguide has a reduced width region in which the waveguide width is reduced.

Abstract: There is provided a liquid crystal device, wherein a liquid crystal layer is interposed between a first substrate and a second substrate, and at least a display pixel corresponding to a colored region of a color from blue to green in a visible light region of which the color varies depending on a wavelength is included, wherein at least one of the first substrate and the second substrate has a spacer which defines the thickness of the liquid crystal layer and an alignment film which is subjected to a rubbing process in a predetermined direction, and wherein a relative positional relationship between the spacer and the display pixel is defined such that a region of the alignment film, which is not subjected to the rubbing process due to existence of the spacer at the time of the rubbing process, is positioned in the display pixel corresponding to the colored region of the color from blue to green.

Abstract: An optical modulator is provided for modulating light propagating in a three-dimensional optical waveguide 5 by applying a voltage thereto. The optical modulator has the three-dimensional optical waveguide 5 including at least one pair of branch optical waveguides 5c and 5d, a multiplexing part 5e of the branch optical waveguides and an emission part 5f provided in the downstream of the multiplexing part, modulation electrodes 3A, 3B and 4 for applying a signal voltage for modulating light propagating in the three-dimensional optical waveguide 5, and guiding waveguides 6A and 6B for guiding primary mode light from the multiplexing part. Thickness of the substrate is 20 ?m or less at least under the modulation electrodes, and an operation point of the optical modulator is controlled by changing, based on light output from the guiding waveguides, DC bias applied onto the modulation electrodes.

Abstract: An adapter couples a length of optical fiber to a hollow probe and to an optical coherence tomography instrument. The length of optical fiber may be greater than the length of the adapter itself. The optical fiber is fixed to an optical coupler at a proximal end of the adapter and may be maintained in a curved configuration by features located in an internal cavity of the adapter. An optical fiber advance mechanism be used to advance and/or retract the length of optical fiber to align it within the hollow probe.

Abstract: A sensing system including a sensor having an enclosure that defines a chamber, a fiber optic segment extending from outside the enclosure into the chamber, and a sequence of optical processing elements within the chamber. The elements include a fiber Bragg grating, a polarizer, a side hole fiber, and a mirror. A light source is arranged to direct light to the sensor(s). A spectral analyzer is arranged to detect light reflected back from the sensor(s). The fiber Bragg grating substantially reflects a first spectral envelope while transmitting the remainder of the optical spectrum to the polarizer and side hole fiber. The polarizer, side hole fiber, and mirror cooperate to return an optical signal within a second spectra! envelope. The characteristic wavelength of a peak in the first spectral envelope is highly sensitive to temperature and relatively weakly sensitive to pressure.

Abstract: The manufacturing yield of transflective liquid crystal display devices is to be enhanced.

Abstract: A keying system for providing selective interconnection between a receptacle socket and a connector plug terminating an optic fibre, the connector plug adapted for insertion into the receptacle socket. The keying system comprises a raised boss configured to one of a plurality of predefined boss keying geometries and a cavity configured to one of a plurality of predefined cavity keying geometries. The boss is either in one of the receptacle socket or on a forward end of the connector plug and the cavity is formed in the other of the receptacle socket or the forward end of the connector plug. At least one of the predefined boss keying geometries matches at least one of the predefined cavity keying geometries. When the boss keying geometry matches the cavity keying geometry, the boss can be inserted into the cavity thereby interconnecting the connector plug with the receptacle socket.

Abstract: A fiber optic cable having at least one optical fiber such as a microstructured bend performance optical fiber disposed within a protective covering. The protective covering is highly flexible and the fiber optic cable has extremely low delta attenuation when aggressively bent compared with the conventional fiber optic cable designs. By way of example, the delta attenuation of one fiber optic cable design is about 0.33 dB or less when wrapped 3 turns about a 7.5 millimeter mandrel at a reference wavelength of 1625 nanometers. Other variations of the present invention include a connector attached to the fiber optic cable.

Abstract: The optical module includes a ferrule having a fiber holding hole, a flexible printed circuit (FPC) board provided to one end of the ferrule, an optoelectric device connected to an electric circuit of the FPC board, and a built-in fiber held in the fiber holding hole in a state in which one end of the fiber faces the optoelectric device, and another end of the fiber is flush with an end surface of another end of the ferrule. The method includes insert-molding a ferrule having a fiber holding hole with one end of the ferrule being positioned with respect to a FPC board; connecting an optoelectric device to an electric circuit of the FPC board; inserting and securing a built-in fiber into the fiber holding hole; and polishing an end surface of the fiber so that an end surface of another end of the ferrule is flush with the end surface of the fiber.

Abstract: According to the shutter assembly of the present invention, since the guide groove for facilitating the insertion of the pivot shaft into the bearing hole of the second bearing part of the shutter member is formed at the opposing end surface of the second bearing part that faces to the first bearing part of the shutter member so that the guide groove is opened to the opposing end surface and is along the direction orthogonal to the axial-line direction of the pivot shaft, it is possible to easily and accurately form the guide groove.

Abstract: An optical fiber connector for releasably coupling an optical fiber to an electro-optical module is disclosed. The optical fiber connector includes a housing, a strain relief, a fiber retention clip, and a pair of latching arms. The housing includes a housing bore defined through at least a portion of the housing and adapted to accommodate the exterior diameter of a typical optical fiber. The optical fiber extending through the strain relief and into the housing bore, terminating at an end of the housing. The optical fiber is retained by the housing by the utilization of the fiber retention clip. The latching arms are arranged to releasable attach the connector to an electro-optical device such that the optical fiber and an optical lens disposed in the electro-optical device are aligned.

Abstract: In the present invention, methods and systems for fabricating novel LPFGs are taught. Fabrication is preformed by focusing a CO2 laser beam having a diameter of 30 to 40 ?m onto a fiber, such fiber being fixed and weighted on either ends. The variations of transmission spectrum and polarization dependent (PDL) loss of the CO2 laser-grooved LPFGs with different fabrication parameters as functions of applied as functions of applied tensile stain are demonstrated and evaluated.

Abstract: Embodiments include systems and methods for integrated circuitry optical modulation. In one embodiment, an integrated circuit comprises an optical waveguide enabling multi-level modulation. The embodiment comprises an optical waveguide with integrated circuit modulators. An optical waveguide is split into at least two branches so that modulation can be imposed in each branch. In one embodiment, the branches are combined to produce an optical signal path in which additional modulation is imposed. In an embodiment of an integrated circuit optical demodulator, a received modulated optical signal is divided into branches and demodulated. Embodiments provide a single integrated circuit for multi-level modulation, thereby avoiding the disadvantages of modulation using separate discrete components. Also, a single integrated circuit for multi-level demodulation is provided.

Abstract: A method of manufacturing a multi-display panel comprises mounting a plurality of display elements on a substrate, covering the substrate and the display elements with a glass cover having walls for partitioning each of the display elements; and cutting the substrate and the glass cover along the walls and separating the display elements to respectively form image units. Thus, the width of a connection portion between the image units is less than half of that in the conventional art and a display image formed by two separate images looks natural.

Abstract: An optoelectric subassembly including a receptacle assembly with an optoelectric device mounted therein to define a light axis. The receptacle assembly includes an optical fiber mounting structure defining an opening with an end of an optical fiber received therein. The mounting structure and opening are designed to position the received optical fiber with an end facet substantially perpendicular to the light axis. A first lens is mounted in the receptacle assembly adjacent the optoelectronic device in the light axis and a ball lens is mounted in the receptacle assembly and positioned in the light axis. The ball lens is mounted so as to be in abutting engagement with the facet of an optical fiber inserted into the opening. By forming the ball lens with a diameter equal to the diameter of a mounting ferrule on the end of the fiber and also equal to the diameter of the ferrule receiving opening, the ball lens is self-aligning.

Abstract: According to the shutter assembly of the present invention, since the shutter member is connected in a swingable manner with the shutter housing that could be mounted on the optical adapter so as to surround the optical adapter, it is possible to easily provide the shutter member in either of the SC or LC optical adapter only by mounting the shutter housing on the SC or LC type optical adapter.

Abstract: A liquid crystal display device comprising a liquid crystal cell, two polarizing plates having a polarizer and a protective film satisfying (1) and (2) below, and an optical compensatory film satisfying (3)-(8) below and disposed between the liquid crystal cell and the polarizer: 0 nm?Re(?)?5 nm??(1) ?20 nm?Rth(?)?20 nm??(2) 20 nm<Re(548)<150 nm??(3) 50 nm<Rth(548)<400 nm??(4) 0.5<Re(446)/Re(548)<1??(5) 1.0<Re(628)/Re(548)<2.0??(6) 1.0<Rth(446)/Rth(548)<2.0??(7) 0.5<Rth(628)/Rth(548)<1.0??(8).

Abstract: A liquid crystal device includes a pair of substrates between which liquid crystal is sandwiched, a plurality of pixel electrodes arranged in a matrix on one of the substrates, switching elements that control the supply of current to the pixel electrodes, scanning lines that supply scanning signals to the switching elements, and data lines that cross the scanning lines and that supply image signals to the switching elements. The pixel electrodes are arranged in pairs, and each pair of the pixel electrodes are adjacent in an extending direction of the data lines and are disposed between a corresponding pair of the scanning lines in the extending direction of the data lines. The switching elements corresponding to each line of the pixel electrodes arrayed in the extending direction of the data lines are alternately connected to either of opposing sides of an adjacent pair of the data lines in the extending direction of the data lines.