36th week of 2015 patent applcation highlights part 25 |
Patent application number | Title | Published |
20150247959 | Lens Array, Lens Array Laminate Body , Lens Array Manufacturing Method, Lens Array Laminate Body Manufacturing Method, And Lens Unit Manufacturing Method - A convex fitting portion | 2015-09-03 |
20150247960 | HOLEY OPTICAL DEVICE - A planar optical device, comprised of sets of nanometer-scale holes milled into a thin metal or ceramic film of subwavelength thickness serves to form arbitrary waveform of light. The holes form a pattern, preferrably rings, of various sizes in order to achieve a given phase front of light due to photonic effect. When designed as a lens, the device focuses incident light into a tight focal spot. In symmetric design, the focusing property of the device does not depend on the incident polarization angle. The lens can be manufactured based on high-throughput fabrication methods and easily integrated with a chip or placed at the end of an optical fiber. | 2015-09-03 |
20150247961 | SUBSTRATE HAVING A MULTILAYER WITH THERMAL PROPERTIES AND AN ABSORBING LAYER - The invention relates to a substrate ( | 2015-09-03 |
20150247962 | Polarized Enhanced Confidentiality - A system for selectively controlling visibility of information in an environment is provided. The system includes one or more polarized emissive screens and polarized non-emissive surfaces located within the work environment. The screens have a first direction of polarization and the surfaces have a direction of polarization substantially aligned with the first direction of polarization. Information displayed on the screens and surfaces are visible to a person inside the work environment. The work environment includes at least one window which permits viewing of the polarized emissive screens and non-emissive surfaces from outside of the work environment. A polarizing filter having a second direction of polarization arranged at an angle to the first direction of polarization is positioned proximate to the window. A person outside the work environment can see inside the environment through the window, but has an altered view of the information on the displays and surfaces. | 2015-09-03 |
20150247963 | OPTICAL FILM, CIRCULARLY POLARIZING PLATE, AND IMAGE DISPLAY DEVICE - A optical film includes a thermoplastic resin and a compound wherein: (1) the absorption spectrum of said compound in solution has at least two absorption maxima in the 200-350 nm wavelength range; (2) letting λmax | 2015-09-03 |
20150247964 | LIGHT SOURCE DEVICE AND DISPLAY DEVICE EQUIPPED WITH SAME - A light source includes: a light guide plate having one principal surface on which light scattering elements are provided; at least one first light source unit which causes light from a first end face of the light guide plate to enter the light guide plate; and at least one second light source unit which causes light from a second end face of the light guide plate to enter the light guide plate. When viewed along a mutually opposing direction in which the first end face and the second end face oppose each other, the first light source unit and the second light source unit are arranged with the light emitting areas shifted from each other, and the light scattering patterns formed by the light scattering elements includes a plurality of types of patterns arranged in accordance with the positions of the light emitting areas of the first light source unit and the second light source unit. | 2015-09-03 |
20150247965 | BACKLIGHT UNIT - A backlight unit includes: a light guide plate of an entirely flat structure; a light emitting element disposed on at least one side of the light guide plate; a first reflection part disposed under the light guide plate and having one side thereof extended to a region where the light emitting element is positioned; a second reflection part disposed on the light emitting element; and a housing for accommodating the light guide plate, the light emitting element, and the first and second reflection parts, wherein the housing has a second side which is vertically extended upwards with respect to a first side which defines a lateral cross section of the housing in which the light emitting element is accommodated as the lower side, and a third side which is vertically extended inwards with respect to the second side. | 2015-09-03 |
20150247966 | BACKLIGHT UNIT, LIQUID CRYSTAL DISPLAY DEVICE COMPRISING SAME, AND GAME MACHINE - A backlight unit for a liquid crystal display device includes: a light source; a first light guiding panel which guides light emitted from the light source; a second light guiding panel which is disposed behind the first light guiding panel and is provided to be movable so as to be selectively disposed at a position of being overlapped with a predetermined area of the first light guiding panel in a back and forth direction and at a position of not being overlapped with the predetermined area in a back and forth direction; and a driving part which provides a driving force for moving the second light guiding panel. | 2015-09-03 |
20150247967 | DISPLAY DEVICE - A display device includes a display unit, a light source unit, a light guide plate that includes an incident end surface and guides the light incident from the incident end surface to the display unit, a spacer portion that separates the light source unit and the light guide plate by a predetermined distance at a predetermined interval, a heat sink that holds the light source unit, and a rear frame that supports the heat sink so that the heat sink is movable in a direction orthogonal to the incident end surface of the light guide plate. | 2015-09-03 |
20150247968 | ILLUMINATED GLAZING WITH PRINTED LAMINATION INSERT - A laminated illuminating glazing unit includes a first sheet with a first main face, a second main face and an edge face, a second sheet with a first main face, a second main face and an edge face; a transparent lamination interlayer making adhesive contact with the second main face of the first sheet and with the first main face of the second sheet; a strip of light-emitting diodes (LEDs), including a printed circuit board and a plurality of LEDs, positioned so that the emitting faces of the LEDs face the edge face of the first sheet; and one or more scattering elements, wherein the lamination interlayer includes, on at least one of its main faces, an opaque masking layer extending from the edge of the interlayer toward the center of the glazing unit so as to cover a zone in which the light from the LEDs would, in the absence of the opaque masking layer, be visible, in the form of luminous halos, through the second sheet. | 2015-09-03 |
20150247969 | Hollow Backlight Unit - A hollow backlight unit preserves the benefits of a conventional backlight based on a solid light guide, but has lower weight and cost. The hollow cavity of the unit has a flat reflective bottom, three reflective side surfaces, LEDs placed in a hollow edge reflector on the fourth side, and a top layer with light extracting features that covers the entire viewing area of the hollow backlight unit. The hollow backlight can be used together with an additional diffuser on the top to avoid cross-talk between the light extracting features and LCD pixels. It can also be combined with optical films like BEF/DBEF to enhance efficiency and control view angle performance. | 2015-09-03 |
20150247970 | OPTICAL CIRCUIT - Disclosed is an optical circuit including a transparent plate, which is light-transmittable, and a light shielding plate, which is adhered to the transparent plate with an adhesive and has an opening through which incident light passes, and in which the aspect facing to the opening has, on the side opposite to the transparent plate, projections in an overhang shape toward the center of the opening. | 2015-09-03 |
20150247971 | METHODS OF MANUFACTURE OF CONTINUOUS RESONANT TRAP STRUCTURES, SUPPORTING STRUCTURES THEREOF, AND DEVICES USING SAME - Methods for creating Continuous Resonant Trap Refractors (CRTR's), and methods for creating stratum structure in which the CRTR is to be disposed, are disclosed The invention further include novel methods for patterning an etch mask, and forming collimators of adjustable length. | 2015-09-03 |
20150247972 | OPTICAL FIBER, FIBER LASER, AND OPTICAL FIBER MANUFACTURING METHOD - An optical fiber of the present invention includes an uncoated FBG fiber in which an FBG mirror is written in a core glass, a first optical fiber that is spliced to one end of the FBG fiber with a first spliced point interposed therebetween, and a second optical fiber that is spliced to the other end of the FBG fiber with a second spliced point interposed therebetween. The optical fiber of the present invention also includes a collectively recoated portion in which at least the FBG fiber, the first spliced point, and the second spliced point are collectively recoated with a recoat resin having a refractive index less than that of silica, the FBG fiber being sandwiched between the first spliced point and the second spliced point. | 2015-09-03 |
20150247973 | Fusion Splice Device - The present disclosure provides for improved field termination optical fiber connector members and/or splicers for use in terminating or fusing optical fibers. More particularly, the present disclosure provides for convenient, low-cost, accurate, and effective methods for terminating or fusing optical fibers utilizing advantageous field termination optical fiber connector members and/or splicers. Improved apparatus and methods are provided for use in terminating or fusing a broad variety of optical fibers. | 2015-09-03 |
20150247974 | SPOT-SIZE CONVERTER FOR OPTICAL MODE CONVERSION AND COUPLING BETWEEN TWO WAVEGUIDES - A spot-size converter for coupling light between first and second waveguides respectively supporting first and second propagation modes having substantially different dimensions is provided. The spot-size converter includes a lower and an upper waveguiding structure each characterized by an effective refractive index. The lower waveguiding structure is coupled to the first waveguide to receive light therefrom or transmit light thereto in the first propagation mode. The upper waveguiding structure is coupled to the second waveguide to transmit light thereto or receive light therefrom in the second propagation mode. The upper waveguiding structure includes a plurality of longitudinally extending high-index elements arranged in multiple vertically spaced rows. At least part of the upper waveguiding structure extends at least partially over the lower waveguiding structure so as to define a coupling region wherein an effective refractive index crossing occurs, thereby enabling evanescent coupling of light between the lower and upper waveguiding structures. | 2015-09-03 |
20150247975 | OPTICAL SYSTEM HAVING A RETURN PLANAR WAVEGUIDE - A waveguide apparatus includes a planar waveguide and at least one optical diffraction element (DOE) that provides a plurality of optical paths between an exterior and interior of the planar waveguide. A phase profile of the DOE may combine a linear diffraction grating with a circular lens, to shape a wave front and produce beams with desired focus. Waveguide apparati may be assembled to create multiple focal planes. The DOE may have a low diffraction efficiency, and planar waveguides may be transparent when viewed normally, allowing passage of light from an ambient environment (e.g., real world) useful in AR systems. Light may be returned for temporally sequentially passes through the planar waveguide. The DOE(s) may be fixed or may have dynamically adjustable characteristics. An optical coupler system may couple images to the waveguide apparatus from a projector, for instance a biaxially scanning cantilevered optical fiber tip. | 2015-09-03 |
20150247976 | PLANAR WAVEGUIDE APPARATUS CONFIGURED TO RETURN LIGHT THERETHROUGH - A waveguide apparatus includes a planar waveguide and at least one optical diffraction element (DOE) that provides a plurality of optical paths between an exterior and interior of the planar waveguide. A phase profile of the DOE may combine a linear diffraction grating with a circular lens, to shape a wave front and produce beams with desired focus. Waveguide apparati may be assembled to create multiple focal planes. The DOE may have a low diffraction efficiency, and planar waveguides may be transparent when viewed normally, allowing passage of light from an ambient environment (e.g., real world) useful in AR systems. Light may be returned for temporally sequentially passes through the planar waveguide. The DOE(s) may be fixed or may have dynamically adjustable characteristics. An optical coupler system may couple images to the waveguide apparatus from a projector, for instance a biaxially scanning cantilevered optical fiber tip. | 2015-09-03 |
20150247977 | OPTICAL COUPLING MEMBER - An optical coupling member includes an adapter and an optical connector. The optical connector has a ferrule, a connector housing, and a holding member. The holding member allows relative movement between the connector housing and the ferrule, and holds a relative angle around a central axis between the connector housing and the ferrule. The connector housing has a contact portion including a contact surface. The adapter has a sleeve and an adapter housing. The ferrule is inserted into the sleeve while the contact surface contacts with the adapter housing for elastically deforming the contact portion. | 2015-09-03 |
20150247978 | Multifiber Connectorization Techniques for Multicore Optical Fiber Cables - Structures and techniques are described relating to the alignment of multicore fibers within a multifiber connector. These structures and techniques include: multicore fibers having a number of different shapes, including, for example, circular, elliptical, D-shaped, double D-shaped, and polygonal; multifiber ferrules, having a plurality of fiber guide holes therein of various shapes; alignment fixtures for aligning multicore fibers within multifiber ferrules; and various multicore fiber alignment techniques. | 2015-09-03 |
20150247979 | REMOTE GRIP MULTI-FIBER CONNECTOR - An optical fiber connector for terminating a fiber cable comprising a plurality of optical fibers, comprises an outer connector housing, a ferrule essentially free of adhesive, a backbone, and a collar body disposed between the ferrule and backbone. The collar body includes a remote gripping region to remotely grip the plurality of optical fibers outside of the ferrule. In some aspects, the collar body includes a fiber comb portion that separates potentially tangled fibers, arranges the plurality of fibers in a uniform pitch, and provides for straightforward feeding of the fiber array into ferrule bores during a fiber cable insertion process. In some aspects, the connector includes a resilient element disposed between the backbone and a rear portion of the collar body, and an intermediate spring element disposed between a front portion of the collar body and a rear portion of the ferrule. | 2015-09-03 |
20150247980 | CONNECTORIZATION TECHNIQUES FOR POLARIZATION-MAINTAINING AND MULTICORE OPTICAL FIBER CABLES - An optical fiber ferrule has a plurality of guide holes therein for guiding a respective plurality of flat-sided fibers at an end of a multifiber optical fiber cable. The fibers' flat sides identify a particular rotational orientation of the fiber. Rotational alignment is achieved by urging the fibers' flat sides against a corresponding reference surface within the ferrule or within an alignment fixture. Also described is a fiber array block having a plurality of V-shaped grooves extending across an outer surface and terminating at an endface. The V-shaped grooves are shaped to guide a respective plurality of flat-sided fibers. A lid is installable across the plurality of V-shaped grooves, over fibers that have been loaded therein. | 2015-09-03 |
20150247981 | OPTICAL CONNECTOR TERMINUS - An optical terminus has a two-piece embodiment having a terminus body and a ferrule with an integral lens. The terminus has a bore that receives an optical fiber cable. The lens can also be fashioned separately and snap fit to the ferrule. The connector can also be provided as a single piece member with the lens formed integrally or separately. | 2015-09-03 |
20150247982 | OPTICAL CONNECTOR FERRULE - An optical connector ferrule having a front end, a rear end, an upper surface, and a lower surface includes a window opening on the upper surface, a plurality of fiber holes passing through a portion between the front end and the window along a first direction and including small diameter portions on the front end side and large diameter portions on the window side, and fiber grooves extending from the large diameter portions along the first direction and having openings in a third direction, in which the plurality of fiber holes include a first fiber hole row arranged in a second direction on a lower surface side, and a second fiber hole row arranged in the second direction on the upper surface side, and the large diameter portion in the second fiber hole row is longer than the large diameter portion in the first fiber hole row. | 2015-09-03 |
20150247983 | OPTICAL CONNECTOR FERRULE - An optical connector ferrule having a front end, a rear end, an upper surface, and a lower surface includes a window opening on the upper surface, a plurality of fiber holes passing through a portion between the front end and the window along a first direction and including small diameter portions on the front end side and large diameter portions on the window side, and fiber grooves extending from the large diameter portions along the first direction and having openings in a third direction, in which the width of the opening is smaller than the diameter of the large diameter portion, and the depth of the fiber groove is smaller than the radius of the large diameter portion. | 2015-09-03 |
20150247984 | OPTICAL TRANSMISSION MODULE AND METHOD OF MANUFACTURING OPTICAL TRANSMISSION MODULE - A method of manufacturing an optical transmission module includes temporary disposing, measuring, and placing steps. The temporary disposing step includes temporarily disposing a light-emitting-element receptacle over a mounting substrate so that a lens of the light-emitting-element receptacle and a light emitting element array face each other. The measuring step includes measuring the position of a light spot at which light emitted from the light-emitting element array emerges from the emergence surface of the light-emitting-element receptacle. The placing step includes placing the light-emitting-element receptacle over the mounting substrate on the basis of information on the position of a designed intersection point of the optical axis of an optical cable with the emergence surface of the light-emitting-element receptacle, and information on the position of the light spot. | 2015-09-03 |
20150247985 | Monolithic Polymer Optical Fiber Ribbon - The present disclosure includes an optical fiber ribbon, using polymer optical fibers and an extremely thin adhesive coating to provide adhesion between the fibers. The external surfaces of the optical fiber ribbons are precisely placed with respect to the optical cores of the constituent fibers, and the optical cores of the fibers are precisely placed with respect to each other. Therefore, the external surface of the ribbon is used as a reference surface for aligning the array of optical fiber cores to arrays of optical emitters or detectors at the ends of the ribbon. Thus, the optical fiber ribbon of the present disclosure is cut, either by a sharp blade or other tool as suitable to expose a cross-section of the ribbon, and inserted as a single unit into a receptacle that aligns the outer surface of the ribbon with respect to the array of optical emitters or detectors. | 2015-09-03 |
20150247986 | LIGHT FIELD IMAGE CAPTURE DEVICE HAVING 2D IMAGE CAPTURE MODE - A dual-mode light field camera or plenoptic camera is enabled to perform both 3D light field imaging and conventional high-resolution 2D imaging, depending on the selected mode. In particular, an active system is provided that enables the microlenses to be optically or effectively turned on or turned off, allowing the camera to selectively operate as a 2D imaging camera or a 3D light field camera. | 2015-09-03 |
20150247987 | POSITION ADJUSTMENT DEVICE AND POSITION ADJUSTMENT METHOD - To make it possible to adjust a relative positional relationship between an imaging lens and an image pickup device highly precisely within a short period of time, a position adjusting device includes: an image pickup device rotating and holding section ( | 2015-09-03 |
20150247988 | FOCUSING SYSTEM, INTERCHANGEABLE LENS, AND IMAGE-CAPTURING DEVICE - A focusing system includes a first drive unit for driving a first focus lens along the optical axis, a second drive unit for driving a second focus lens along the optical axis, a determining unit for periodically detecting a focus state of a subject image formed via the optical system and determining a focus position of the optical system based on the detected result, and a control unit for controlling the first and second drive units according to a result of determining the focus position of the optical system by the determining unit. The control unit controls the second drive unit to drive the second focus lens independently of the first focus lens, in the focus operation. | 2015-09-03 |
20150247989 | INNER FOCUS LENS - An inner focus lens includes sequentially from an object side, a first lens group having a positive refractive power; a second lens group having a negative refractive power; and a third lens group having a negative refractive power. The second lens group is moved along the optical axis, whereby focusing from a focus state for an object at infinity to a focus state for a minimum object distance is performed. The inner focus lens satisfies a conditional expression (1) −29.0≦f3/f≦− | 2015-09-03 |
20150247990 | IMAGING LENS - An imaging lens includes a first lens group having positive refractive power; a second lens group having positive refractive power; and a third lens group having negative refractive power, arranged in this order from an object side to an image plane side. The first lens group includes a first lens having positive refractive power, a second lens having negative refractive power, and a third lens having positive refractive power. The second lens group includes a fourth lens having positive refractive power and a fifth lens having positive refractive power. The third lens group includes a sixth lens and a seventh lens. The first to fifth lenses have specific Abbe's numbers. | 2015-09-03 |
20150247991 | IMAGING LENS - An imaging lens includes a first lens having positive refractive power; a second lens having negative refractive power; a third lens having negative refractive power; a fourth lens; and a fifth lens having negative refractive power, arranged in this order from an object side to an image plane side. The first lens is formed in a shape so that a surface thereof on the object side has a positive curvature radius. The third lens is formed in a shape so that a surface thereof on the image plane side has a positive curvature radius. The fifth lens is formed in a shape so that a surface thereof on the object side has a negative curvature radius, and a surface thereof on the image plane side has a positive curvature radius. The first to third lenses have specific Abbe's numbers. The second and third lenses have specific focal lengths. | 2015-09-03 |
20150247992 | IMAGING LENS - A low-cost imaging lens which corrects aberrations properly with a small F-value, ensures high performance with a larger number of constituent lenses and has a more low-profile design than before. The constituent lenses are arranged in the following order from an object side to an image side: a first lens having a convex object-side surface near an optical axis; a second lens having a convex object-side surface near the optical axis; a third lens having at least one aspheric surface; a fourth lens having at least one aspheric surface; a fifth lens as a double-sided aspheric lens; a sixth lens as a double-sided aspheric lens having a concave image-side surface near the optical axis; and a seventh lens as a double-sided aspheric lens having a concave image-side surface near the optical axis. These constituent lenses are not joined to each other. | 2015-09-03 |
20150247993 | IMAGING LENS - A low-cost imaging lens which corrects aberrations properly with a small F-value, ensures high performance with a larger number of constituent lenses and has a more low-profile design than before. The constituent lenses are arranged in the following order from an object side to an image side: a first lens having a convex object-side surface near an optical axis; a positive second lens; a negative third lens having a convex object-side surface near the optical axis; a fourth lens having at least one aspheric surface; a fifth lens as a double-sided aspheric lens; a sixth lens as a double-sided aspheric lens; and a seventh lens as a double-sided aspheric lens having a concave image-side surface near the optical axis. These constituent lenses are not joined to each other. | 2015-09-03 |
20150247994 | MACRO LENS SYSTEM AND IMAGING APPARATUS - A macro lens system includes, in this order from an object side: a positive first lens group; a negative second lens group; a positive third lens group; a negative fourth lens group; a positive fifth lens group; and a negative sixth lens group. The first lens group is constituted by three lenses. The second lens group, the fourth lens group, and the fifth lens group are independently moved in the direction of the optical axes thereof when focusing from an object at infinity to an object at a most proximate distance. The second lens group moves toward the image side and the fourth lens group moves toward the object side when focusing from an object at infinity to an object at a most proximate distance. | 2015-09-03 |
20150247995 | VARIABLE MAGNIFICATION OPTICAL SYSTEM, OPTICAL DEVICE, AND PRODUCTION METHOD FOR VARIABLE MAGNIFICATION OPTICAL SYSTEM - Composing, in order from an object side: a first lens group having positive refractive power; a second lens group having negative refractive power; a third lens group having positive refractive power; a fourth lens group having positive refractive power; and a fifth lens group having positive refractive power; upon zooming from a wide-angle end state to a telephoto end state, a distance between the first lens group and the second lens group, a distance between the second lens group and the third lens group, a distance between the third lens group and the fourth lens group and a distance between the fourth lens group and the fifth lens group being varied; and the given conditional expressions being satisfied; thereby providing a small-size variable magnification optical system having a high zoom ratio and an excellent optical performance. | 2015-09-03 |
20150247996 | ZOOM LENS AND IMAGING APPARATUS - A zoom lens consists of a positive first lens group, a negative second lens group moved from the object side to the image plane side during zooming from the wide angle end to the telephoto end, a positive third lens group moved during zooming, and a positive fourth lens group, in order from the object side. The second and third lens groups each pass through a point where the imaging magnification of each corresponding lens group is −1× at the same time during zooming from the wide angle end to the telephoto end. The fourth lens group includes, on the most object side, a vibration-proof lens group, composed of a negative lens, a positive meniscus lens with a convex surface on the object side, and a negative lens, in order from the object side, and either one of the negative lenses satisfies predetermined conditional expressions. | 2015-09-03 |
20150247997 | PROJECTION ZOOM LENS AND PROJECTION TYPE DISPLAY DEVICE - The projection zoom lens essentially consists of a positive first lens group fixed while changing magnification and the second lens group through the fourth lens group which move while changing magnification, and a fifth lens group fixed while changing magnification; and an aperture stop positioned between adjacent moving lens groups or within one moving lens group, wherein | 2015-09-03 |
20150247998 | Device for Generating A Linear Intensity Distribution of a Laser Beam in a Working Plane - A device for generating a linear intensity distribution ( | 2015-09-03 |
20150247999 | IMAGING SYSTEM AND METHOD FOR IMAGING AN OBJECT - An imaging apparatus ( | 2015-09-03 |
20150248000 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING PROGRAM, AND IMAGE PROCESSING METHOD - An image processing apparatus, an image processing program, and an image processing method for achieving visibility of the entire image used for capturing a microscopic image while concurrently retaining accuracy of image processing are disclosed. The image processing apparatus includes an output value obtaining unit, a first interpolation unit, a second interpolation unit, an image generation unit, and a first edge detection unit. The output value obtaining unit obtains respective output values of light-receiving elements. The first interpolation unit uses a first interpolation algorithm to interpolate a pixel value. The second interpolation unit uses a second interpolation algorithm to interpolate a pixel value. The image generation unit generates an image based on a pixel value, which is interpolated by the first interpolation unit. The first edge detection unit detects an edge using a first edge detection algorithm based on a pixel value, which is interpolated by the second interpolation unit. | 2015-09-03 |
20150248001 | APOCHROMATIC MICROSCOPE OBJECTIVE - An apochromatic microscope objective, including three optical sub-systems, wherein starting from the object plane, the first sub-system includes a meniscus and a convergent lens, wherein the meniscus is curved towards the object plane, the second sub-system is made up of three elements, wherein a first element includes a meniscus or a cemented element, a second element is configured as a collecting cemented element and a third element is a cemented element, and wherein either the first element or the third element is strongly scattering and the third sub-system has at least one cemented element with a collecting lens. | 2015-09-03 |
20150248002 | COOLING SYSTEMS AND METHODS FOR CRYO SUPER-RESOLUTION FLOURESCENCE LIGHT MICROSCOPY AND OTHER APPLICATIONS - New systems and methods are described for maintaining a desired steady state temperature differential between two objects that may otherwise undergo heat transfer to restore thermal steady state. In one application, a cooling microscope assembly and its use with conventional optical microscopes are described for achieving super-resolution imaging. The assembly allows for the high resolution imaging of samples at cryogenic temperatures while maintaining the temperature of the objective lens above freezing by employing circulation systems and a coupling fluid between the sample and objective lens. | 2015-09-03 |
20150248003 | CALIBRATION PLATE FOR MEASURING CALIBRATION OF A DIGITAL MICROSCOPE AND METHODS OF USING THE SAME - A calibration plate for measuring calibration of digital microscope and methods of using the same. The calibration plate comprises at least one calibration area formed with a surface structure which includes a plurality of grid cells arranged periodically, wherein at least part of boundary and/or at least part of apexes of each grid cell can be identified by an optical imaging system of the digital microscope. The invention also includes a digital microscope system equipped with the calibration plate. | 2015-09-03 |
20150248004 | LIGHT FILTER, OPTICAL MODULE, ELECTRONIC DEVICE, AND MANUFACTURING METHOD OF LIGHT FILTER - A light filter includes a fixed substrate, a movable portion which is arranged to face the fixed substrate, a fixed reflective film which is disposed in the fixed substrate, and reflects a part of light and transmits a part of the light, a movable reflective film which is disposed in the movable portion, faces the fixed reflective film, and reflects a part of the light and transmits a part the light, and a control unit which controls a distance between the fixed reflective film and the movable reflective film, a conductive film is disposed between the fixed reflective film and the fixed substrate, and a reflective film terminal is disposed on the conductive film, and a conductive film is disposed between the movable reflective film and the movable portion, and a third terminal is disposed on the conductive film. | 2015-09-03 |
20150248005 | LIGHT FILTER, OPTICAL MODULE, AND ELECTRONIC DEVICE - A light filter includes a fixed substrate, a movable portion which is arranged to face the fixed substrate, a fixed reflective film which is disposed on the fixed substrate, and reflects a part of light and transmits a part of the light, a movable reflective film which is disposed on the movable portion to face the fixed reflective film, and reflects a part of the light and transmits a part of the light, and an electrostatic actuator which controls a distance between the fixed reflective film and the movable reflective film, the fixed reflective film is interposed between a conductive film and a protective film, and the conductive film and the protective film are formed of the same material, and have the same film thickness. | 2015-09-03 |
20150248006 | CIRCULAR DIFFRACTIVE OPTICAL ELEMENTS FOR AUGMENTED OR VIRTUAL REALITY - Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise an image-generating source to provide one or more frames of image data in a time-sequential manner, a light modulator configured to transmit light associated with the one or more frames of image data, a substrate to direct image information to a user's eye, wherein the substrate houses a plurality of reflectors, a first reflector of the plurality of reflectors to reflect transmitted light associated with a first frame of image data at a first angle to the user's eye, and a second reflector to reflect transmitted light associated with a second frame of the image data at a second angle to the user's eye. | 2015-09-03 |
20150248007 | METHOD OF MANUFACTURING MIRROR DEVICE - A portion of an SiO | 2015-09-03 |
20150248008 | ACTUATOR, OPTICAL SCANNER, IMAGE DISPLAY APPARATUS, AND HEAD-MOUNTED DISPLAY - An actuator includes: a movable section; a support section; a first shaft that connects the movable section and the support section to each other and supports the movable section in a swingable manner around a first axis; an impact reduction section that is provided between the movable section and the support section and connected to the support section; and a restriction section so provided that the restriction section sandwiches the impact reduction section in a displacement direction in which the movable section is displaced when the movable section swings around the first axis. | 2015-09-03 |
20150248009 | LIGHT SCANNING DEVICE AND IMAGE FORMING APPARATUS WITH THE SAME - A light scanning device includes: a first semiconductor laser | 2015-09-03 |
20150248010 | INDUCING PHASE DELAYS IN A MULTICORE ASSEMBLY FOR AUGMENTED OR VIRTUAL REALITY - Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise an image-generating source to provide one or more frames of image data in a time-sequential manner, a light modulator configured to transmit light associated with the one or more frames of image data, a substrate to direct image information to a user's eye, wherein the substrate houses a plurality of reflectors, a first reflector of the plurality of reflectors to reflect transmitted light associated with a first frame of image data at a first angle to the user's eye, and a second reflector to reflect transmitted light associated with a second frame of the image data at a second angle to the user's eye. | 2015-09-03 |
20150248011 | DELIVERING VIRTUAL IMAGES OF DIFFERENT PORTIONS OF THE USER'S PUPIL FOR AUGMENTED OR VIRTUAL REALITY - Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise an image-generating source to provide one or more frames of image data in a time-sequential manner, a light modulator configured to transmit light associated with the one or more frames of image data, a substrate to direct image information to a user's eye, wherein the substrate houses a plurality of reflectors, a first reflector of the plurality of reflectors to reflect transmitted light associated with a first frame of image data at a first angle to the user's eye, and a second reflector to reflect transmitted light associated with a second frame of the image data at a second angle to the user's eye. | 2015-09-03 |
20150248012 | STACKED CONFIGURATION OF FREEFORM OPTICS FOR AUGMENTED OR VIRTUAL REALITY - Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise an image-generating source to provide one or more frames of image data in a time-sequential manner, a light modulator configured to transmit light associated with the one or more frames of image data, a substrate to direct image information to a user's eye, wherein the substrate houses a plurality of reflectors, a first reflector of the plurality of reflectors to reflect transmitted light associated with a first frame of image data at a first angle to the user's eye, and a second reflector to reflect transmitted light associated with a second frame of the image data at a second angle to the user's eye. | 2015-09-03 |
20150248013 | DEVICE FOR ELECTROMAGNETIC WAVE CLOAKING - An electromagnetic wave cloaking device is described. The device may include a plurality of first-type dielectric units, a plurality of second-type dielectric units, and a plurality of four kinds of spacers. The dielectric units and the spacers are arranged such that an electromagnetic wave incident unto the cloaking device can be refracted within the device and around a cloaking area surrounded by the device. | 2015-09-03 |
20150248014 | CONTROL OF POLARIZATION AND DIFFRACTIVE ARTIFACT RESOLUTION IN RETRO-IMAGING SYSTEMS - Polarization state in retro-reflective arrays may be controlled throughout the optical path of a retro-reflective retro-imaging setup to enhance system efficiency. A polarization beam splitter layer and a retarder layer placed in front of the retro-reflector array may be oriented such that polarized light is used as source, source input light is efficiently reflected at the polarization beam splitter layer toward the retro-reflective layer, and polarization is converted to circular upon first pass through retarder layer. The polarization may also be oriented at or near 45° with respect to input polarization state, light may be retro-reflected and reconverged at the retro-reflective layer, and converted to linear polarization state. The light may then be rotated about 90° with respect to input linear state, and/or passed through the polarization beam splitter layer upon second pass to form the reconvergent image. | 2015-09-03 |
20150248015 | OPTICAL ASSEMBLY AND LIGHT MICROSCOPE - An optical assembly that is designed for positioning in a beam path of a light microscope having means for providing structured illuminating light in a sample plane of the light microscope, so that structured illuminating light can be generated in different orientations. The optical assembly has an adjustable deflector in order to deflect an incident light bundle onto one of several beam paths in a selectable manner. Beam splitting devices are located in the beam paths in order to split the light bundle of the respective beam paths into partial light bundles, which are spatially separated from each other. Beam guides are provided for each of the partial light bundles, and guide the partial light bundles to a pupil plane. The beam guides are arranged in such a way that the partial light bundles that belong to the same beam path form a light spot pattern in the pupil plane; and that the light spot patterns of different beam paths in the pupil plane are different from each other. | 2015-09-03 |
20150248016 | INNER FOCUS LENS - An inner focus lens includes sequentially from an object side, a first lens group having a positive refractive power; a second lens group having a negative refractive power; and a third lens group having a negative refractive power. The second lens group is moved along an optical axis, whereby focusing from a focus state for an object at infinity to a focus state for a minimum object distance is performed. A lens group configured by a lens other than a lens that is disposed farthest on the object side is moved in a direction orthogonal to the optical axis to shift an image. The inner focus lens satisfies a conditional expression (1) 0.15≦(1−βp)×βr≦4.50, where βp is transverse magnification of the orthogonally moved lens group and βr is composite transverse magnification of a lens group disposed farther on an image side than the orthogonally moved lens group. | 2015-09-03 |
20150248017 | IMAGE BLUR CORRECTION DEVICE AND IMAGING APPARATUS - An image blur correction device includes a driving motor that rotates a driven object in an axial rotation direction of a fulcrum axis. The driving motor includes a stator that has either one of a magnet and a driving coil mounted thereon, a first rotor that is positioned to face the stator and has the other of the magnet and the driving coil mounted thereon so as to rotate in a state where the first rotor is attracted toward the stator by magnetic force, a plurality of rolling members that rotates in accordance with rotation of the first rotor and revolves about an axis of rotation of the first rotor, and a second rotor that holds the plurality of rolling members and rotates with the driven object incorporated therein about the axis of rotation of the first rotor in accordance with revolution of the plurality of rolling members. | 2015-09-03 |
20150248018 | BLUR CORRECTION DEVICE, AND LENS BARREL PROVIDED WITH BLUR CORRECTION DEVICE, AND CAMERA SYSTEM - A blur correction device according to this disclosure includes: a movable frame which supports a correction optical system, the movable frame having a through hole formed along an optical axis; a base part which holds the movable frame, and a base frame which forms a space, where the movable frame moves, between the base frame and the base part; a guide shaft being disposed inside the through hole formed in the movable frame; a locking member which is movably supported by the guide shaft, the locking member being configured to move into the through hole formed in the movable frame to come into contact with a part of the movable frame for restricting movement of the movable frame in a direction intersecting the optical axis of the movable frame; and a drive unit which drives the locking member along the guide shaft. | 2015-09-03 |
20150248019 | CONTACT LENSES WITH APPARENT MOTION AND OTHER OPTICAL EFFECTS - Static images or patterns may be incorporated into one or more regions of a cosmetic contact lens to achieve a new dimensional effect; namely, the appearance or illusion of motion. More particularly, repeated asymmetric patterns with the appropriate contrast and luminance incorporated into one or more regions of the contact lens will result in the one or more regions providing the appearance of motion. Other optical or visual illusions may also be incorporated into a cosmetic contact lens. | 2015-09-03 |
20150248020 | METHOD FOR ADAPTING THE OPTICAL FUNCTION OF AN ADAPTIVE OPHTHALMIC LENSES SYSTEM - Methods for adapting the optical function of an adaptive ophthalmic lenses system are provided. Said methods comprise an adaptive ophthalmic lenses system providing step during which an adaptive ophthalmic lenses system is provided. An acquisition step during which the scene in front of the wearer is acquired may be provided. A gazing zone determining step during which a gazing zone is determined may be included, the gazing zone being a zone of images of the scene acquired comprising the gazing direction of the wearer. A parameter determining step during which the value of at least one parameter of the images of the scene is determined may be provided. An adaptation step may be included during which the optical function of active ophthalmic lenses are adapted according to the value of the at least one parameter determined during the parameter determining step. | 2015-09-03 |
20150248021 | FLUID-FILLED LENSES AND THEIR OPHTHALMIC APPLICATIONS - A fluid lens assembly including a front rigid lens, a semi-flexible membrane that is adapted to be expanded from a minimum inflation level to a maximum inflation level, and a fluid layer therebetween. The front lens of the fluid lens assembly is configured to have a negative optical power. In an embodiment, the fluid lens assembly may be configured to have an overall negative optical power when the membrane is expanded to the maximum inflation level. In an embodiment, the fluid lens assembly can be configured to have an overall negative optical power when the membrane is expanded between the minimum inflation level and the maximum inflation level. | 2015-09-03 |
20150248022 | VARIABLE FOCUS LIQUID FILLED LENS APPARATUS - A variable focus optical apparatus including a rigid, curved, transparent optical component; two transparent, distensible membranes attached to a periphery of the rigid optical component to define two cavities, a first cavity between the rigid optical component and a first membrane and a second cavity between the first membrane and a second membrane; and a variable amount of fluid each of the cavities, and a reservoir containing additional fluid and in fluid communication with the cavity, wherein the reservoir is configured to provide injection of fluid into the cavity or withdrawal of fluid out of the cavity in response to a force or an impulse. | 2015-09-03 |
20150248023 | POLARIZING LENS FOR SUNGLASSES - Provided is a polarizing lens that is excellent in terms of impact resistance, prevention of eye strain, and a small variation of color tone or transparency or both. A sunglass polarizing lens that is formed by laminating a transparent protective sheet via an adhesive layer to each surface of a polarizing film that is made from polyvinyl alcohol and that is stretched and stained with dichroic organic dye; curving the resultant laminate so as to impart spherical or aspherical surfaces thereto to obtain a polarizing sheet; and injecting a transparent resin for a lens onto a surface of the polarizing sheet, wherein the polarizing film is stained by combined dichroic organic dyes so that the dichroic ratio of the film is within the range of from 5 to 14. | 2015-09-03 |
20150248024 | Lighting Glasses - A pair of lighting glasses has a glasses body and a lighting module. The glasses body has a glasses frame, a waterproof cover, and two glasses temples. The waterproof cover is detachably mounted on the glasses frame. The glasses temples are transparent and are connected with the two ends of the glasses frame. The lighting module is mounted in the glasses body and has a main lamp, a cell, and two side lamps. The main lamp, the cell, and the side lamps are mounted in the glasses frame. The cell is electrically with a charging adapter aligned with the waterproof cover. Each side lamp is mounted along a longitudinal direction of a corresponding glasses temple. | 2015-09-03 |
20150248025 | Eyeglasses with High Flexibility In Use - The eyeglasses ( | 2015-09-03 |
20150248026 | MOISTURE-RESISTANCE ELECTRONIC SPECTACLE FRAMES - Eyewear including an optical functional member, control electronics, and a sealed electrical connective element connecting the electronics to the optical functional member. The connective element can directly connect the electronics to the optical functional member, or can connect through an intermediate contact, e.g., a plug-and-receptacle. The connective element can be routed from the electronics, around a rimlock of the eyewear to the optical functional member. The connective element can be a conductive compressible member, such as conductive rubber. In some embodiments, the connective element can be a multiconductor cable. | 2015-09-03 |
20150248027 | DISPLAY DEVICE AND LIQUID CRYSTAL LENS PANEL DEVICE FOR THE SAME - A liquid crystal lens panel includes a display area and a periphery area disposed outside the display area. A first substrate including a plurality of linear electrodes is disposed in a display area. A plurality of bus lines is disposed on a periphery area. A common voltage line is disposed parallel to the plurality of bus lines The liquid crystal lens panel includes a second substrate including a common electrode. The second substrate faces the first substrate. A sealing member is disposed along the periphery area and bonds the first substrate and the second substrate to each other. The common voltage line is disposed between each of the plurality of bus lines. The sealing member is disposed on the common voltage line. The sealing member electrically connects the common voltage line and the common electrode. | 2015-09-03 |
20150248028 | SYSTEM FOR DISPLAY IMAGES - A system for displaying images including a display panel is provided. The display panel has a display area and a peripheral area. The display panel includes a metal layer disposed on a first substrate. A patterned planarization layer is disposed on the metal layer, having at least one opening corresponding to the peripheral area, wherein a portion of the metal layer is exposed through the opening. A second substrate is disposed opposite to the first substrate. A seal is disposed at the peripheral area and between the first and the second substrates, wherein the seal covers the metal layer through the opening of the patterned planarization layer. | 2015-09-03 |
20150248029 | LIQUID CRYSTAL DRIP IRRIGATION DEVICE - The present invention relates to a liquid crystal drip irrigation device, comprising a duct container, in which a plurality of liquid crystal ducts are arranged. The liquid crystal ducts pass through the duct container from top end surface to bottom end surface of the duct container. A baffle is appressed to the bottom end surface of the duct container. A plurality of through holes corresponding to the liquid crystal ducts in positions are formed on the baffle. The bottom end surface of the duct container is provided with a first actuator and the baffle is provided with a second actuator. The first actuator and the second actuator drive the baffle to move relative to the duct container. | 2015-09-03 |
20150248030 | METHOD FOR MANUFACTURING AN ELECTROOPTICAL DEVICE - An object of the present invention is to provide an electrooptical device having high operation performance and reliability, and a method of manufacturing the electrooptical device. | 2015-09-03 |
20150248031 | LIGHT DEFLECTION DEVICE AND METHOD FOR DRIVING LIGHT DEFLECTION ELEMENT - Provided is a light deflection device that is capable of forming a blazed-type diffraction grating while suppressing an increase in an electrode-applied voltage by using a horizontal electric field mode. A light deflection element is equipped with: a pair of glass substrates; a liquid crystal layer sandwiched between the pair of glass substrates; and a plurality of pattern electrodes arranged over a surface of the glass substrate on the side of the liquid crystal layer, with an interlayer insulation film therebetween. A driving circuit that applies voltages to the light deflection element generates electrode-applied voltages Vpixel so as to change an inter-electrode voltage VLC incrementally in the order of 0V, 3V, and 6V. The electrode-applied voltages Vpixel are a mixture of positive voltages and negative voltages. | 2015-09-03 |
20150248032 | Liquid crystal display and method of optical compensation thereof - The present invention discloses a liquid crystal display and a method of optical compensation thereof. Specifically, the present invention adjusts compensation values of a uniaxial positive birefringence A-Plate and a uniaxial negative birefringence C-Plate, especially a value range of retardation in a thickness direction R | 2015-09-03 |
20150248033 | Displays With Elevated Backlight Efficiency - An electronic device may be provided with a display mounted in a housing. The display may include a liquid crystal display module and a reflective polarizer having an in-plane optical axis. The display may also include a backlight unit that includes a light source, a light guide element, and a reflector film coupled to a backside of the light guide element. The display may also include a light retardation layer such as a quarter wave film. The quarter wave film may be arranged between the reflective polarizer and the reflector film of the backlight unit. Partially polarized light that is output from a front side of the light guide element may have a first component parallel to the in-plane optical axis and a second component perpendicular to the in-plane optical axis of the reflective polarizer. The second component may be reflected from the reflective polarizer. | 2015-09-03 |
20150248034 | DISPLAY PANEL, DISPLAY APPARATUS, AND MANUFACTURING METHOD - For the purpose of providing a display panel that realizes a high light utilization efficiency, a low power consumption, a fast response and a low cost, a display panel of the present invention includes, between a transparent substrate ( | 2015-09-03 |
20150248035 | DISPLAY DEVICE AND TELEVISION RECEIVER DEVICE - A display device is provided with an LED ( | 2015-09-03 |
20150248036 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display, comprising a back light module, a metal side frame, and a liquid crystal display panel disposed between the back light module and the metal side frame, wherein the metal side frame comprises a first magnet, the back light module comprises a second magnet, at least a portion of the first magnet and the second magnet are oppositely disposed, and each magnet is provided with an identical kind of magnetic pole on the side facing to the liquid crystal display panel. The liquid crystal display retains the gap between the liquid crystal display panel and the metal side frame, thereby preventing the problem of light leakage in a 0 grayscale image. | 2015-09-03 |
20150248037 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes: a chassis in which a liquid crystal panel and a reflection sheet are placed; a rear case attached to a back face of the chassis where a part of the reflection sheet is exposed; and a signal processing substrate that is placed on the reflection sheet and that is used for driving the liquid crystal panel. A positioning mount component is mounted on the signal processing substrate, a positioning pin capable of locking the positioning mount component is formed at a position corresponding to the positioning mount component in the rear case, and the positioning mount component is fitted to the corresponding positioning pin to thereby position the signal processing substrate at a desired position on the reflection sheet. | 2015-09-03 |
20150248038 | COLOR FILTER ARRAY SUBSTRATE, METHOD FOR FABRICATING THE SAME AND DISPLAY DEVICE - A color filter array substrate, a method for fabricating the same and a display device are disclosed. The color filter array substrate includes a plurality of gate lines and a plurality of data lines disposed as intersecting each other horizontally and vertically and a plurality of pixel regions defined by the gate lines and the data lines, each of the pixel regions includes a TFT, wherein each of the pixel regions further includes a band-pass filter layer, the band-pass filter layer transmits light within a specific wavelength range while reflects light of other wavelengths; the band-pass filter layer comprises a first medium sub-layer, a second medium sub-layer and a third medium sub-layer, the second medium layer is of different thicknesses at different pixel regions. | 2015-09-03 |
20150248039 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC DEVICE - According to one embodiment, a liquid crystal display device includes a polarizing layer, first and second substrate units, and a liquid crystal layer. The first substrate unit has first and second surfaces. The first surface is on the polarizing layer side. The second surface is on a side opposite to the first surface. The first substrate unit includes first and second pixel electrodes, and an opening region. The first and second pixel electrodes are disposed on the first surface. The second substrate unit is provided between the first substrate unit and the polarizing layer. The second substrate unit has third and fourth surfaces. The third surface is on the first substrate unit side. The fourth surface is on a side opposite to the third surface. The second substrate unit includes an opposing electrode on the third surface. The liquid crystal layer is provided between the first and third surfaces. | 2015-09-03 |
20150248040 | BACKLIGHT UNIT AND DISPLAY APPARATUS THEREOF - A backlight unit and a display device having the same are provided. A backlight unit includes at least one light source, at least one reflector disposed to enclose the at least one light source, a reflective sheet arranged under the reflector and a diffusion sheet arranged over the reflector, wherein the at least one reflector has at least one of cross sections shaped like an ellipse and a parabola, and has a reflective layer formed on an inner side thereof. | 2015-09-03 |
20150248041 | MECHANICAL RUBBING METHOD FOR FABRICATING CYCLOIDAL DIFFRACTIVE WAVEPLATES - Cycloidal boundary conditions for aligning liquid crystalline materials are obtained by mechanical rubbing of a polymer coating. The rubbing is performed by a rubbing head rotating around an axis perpendicular to the rubbing plane while the alignment polymer film is being translated across the rubbing film such as only a linear portion of the alignment film touches the rubbing film at any given time. | 2015-09-03 |
20150248042 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display includes a lower panel, an upper panel, and a liquid crystal layer disposed therebetween. The lower panel includes a pixel electrode including at least one unit pixel electrode. The upper panel includes a common electrode. The unit pixel electrode includes a rhombus-like plate portion, and a plurality of minute branch portions extending therefrom. | 2015-09-03 |
20150248043 | LIQUID CRYSTAL DISPLAY DEVICE - According to one embodiment, a liquid crystal display device includes a first substrate including a pixel electrode which is located in an inside surrounded by a first gate line, a second gate line, a first source line and a second source line, and a second substrate including a common electrode. The pixel electrode includes a contact portion, two or more main pixel electrodes, and a connection portion connecting the main pixel electrodes. The common electrode includes main common electrodes located above the first gate line, above the second gate line and above a point between the main pixel electrodes, and sub-common electrodes located above the first source | 2015-09-03 |
20150248044 | Liquid Crystal Display Device And Electronic Device - To provide a semiconductor device, a liquid crystal display device, and an electronic device which have a wide viewing angle and in which the number of manufacturing steps, the number of masks, and manufacturing cost are reduced compared with a conventional one. The liquid crystal display device includes a first electrode formed over an entire surface of one side of a substrate; a first insulating film formed over the first electrode; a thin film transistor formed over the first insulating film; a second insulating film formed over the thin film transistor; a second electrode formed over the second insulating film and having a plurality of openings; and a liquid crystal over the second electrode. The liquid crystal is controlled by an electric field between the first electrode and the second electrode. | 2015-09-03 |
20150248045 | ELECTROPHORETIC DISPERSION - The present invention is directed to an electrophoretic dispersion, in particular, an electrophoretic dispersion comprising uncharged or lightly charged additive particles for improving bistability of an electrophoretic display. The average diameter of the additive particles is about 1% to about 25% of the average hydrodynamic diameter of the charged pigment particles. | 2015-09-03 |
20150248046 | CONTROLLING DIFFRACTIVE OPTICAL ELEMENTS FOR AUGMENTED OR VIRTUAL REALITY - Configurations are disclosed for presenting virtual reality and augmented reality experiences to users. The system may comprise an image-generating source to provide one or more frames of image data in a time-sequential manner, a light modulator configured to transmit light associated with the one or more frames of image data, a substrate to direct image information to a user's eye, wherein the substrate houses a plurality of reflectors, a first reflector of the plurality of reflectors to reflect transmitted light associated with a first frame of image data at a first angle to the user's eye, and a second reflector to reflect transmitted light associated with a second frame of the image data at a second angle to the user's eye. | 2015-09-03 |
20150248047 | Terahertz Mixer and Optical Fiber Coupled Terahertz Mixer - A tunable mixer comprising:
| 2015-09-03 |
20150248048 | APPARATUS FOR AFFIXING A CAMERA - Provided is an apparatus capable of fixedly affixing a camera onto an uneven surface or surfaces that are of different angles or heights to each other, while allowing for a high degree of freedom of movement. The apparatus includes a camera connection platform equipped with a camera mounting unit in the upper portion of the apparatus onto which a camera is securely fixed; an upper body pan connected to the lower portion of the camera connection platform that allows the upper body an to pivot multi-axially, a lower body part connected to the lower portion of the upper body part; two legs connected to both ends of the lower body part in a o manner that allows the legs to pivot multi-axially; and suction cups, each of which is attached to each of the other ends of the two supports. | 2015-09-03 |
20150248049 | Subaquatic Monopod for Photographic Equipment - A subaquatic monopod for photographic equipment is disclosed. The subaquatic monopod is adapted from a standard telescoping monopod. A photographer affixes anchoring weights to a base of the monopod and affixes flotation devices to an upper end of the monopod. The photographer affixes anchoring weights of sufficient mass to hold the base on a bottom surface of a body of water. The underwater photographer affixes flotation devices of sufficient buoyancy to steady the monopod in a vertical position, without lifting the monopod and attached photographic equipment from the bottom surface. The photographer places or “throws” the subaquatic monopod into position on the bottom surface. The photographer can then record photographic images without manually steadying the photographic equipment. The subaquatic monopod optionally includes a ring for attachment of a retrieval line. The retrieval line allows deployment and retrieval from a distance (including by a photographer who is not underwater). | 2015-09-03 |
20150248050 | REAR CONVERTER - There is provided rear converter including a first lens that is a negative lens of which both surfaces are concave, a second lens that is a negative lens of which both an image plane side and an object side are convex toward an object side, and a third lens that is a positive lens of which both sides are convex. The first to third lenses are disposed in this order from the object side, and the rear converter is inserted and used between an imaging lens and a camera. | 2015-09-03 |
20150248051 | MANUFACTURING METHOD OF COLOR FILTER SUBSTRATE - A manufacturing method of a color filter substrate includes: depositing a photoresist layer on a substrate, patterning the photoresist layer through exposure and development and executing an UV curing; or forming an overcoat whose material is a light-cured material on a substrate, conducting an UV irradiation on the substrate from front and back sides of the substrate, respectively; or, depositing a black matrix photoresist, a red photoresist, a green photoresist and a blue photoresist on a substrate, respectively, and forming corresponding patterns respectively through exposure and development and executing an UV curing. By the technical solution, the line-width of a BM can be restrained from broadening, and the curing time can be shortened, thereby raising the production efficiency. | 2015-09-03 |
20150248052 | PHOTORESIST COMPOSITION, COMPOUND AND PROCESS OF PRODUCING PHOTORESIST PATTERN - A photoresist composition comprising: | 2015-09-03 |
20150248053 | PHOTOSENSITIVE CONDUCTIVE PASTE, MULTILAYER SUBSTRATE, METHOD OF PRODUCING CONDUCTIVE PATTERN, AND ELECTROSTATIC CAPACITANCE TYPE TOUCH PANEL - A photosensitive conductive paste contains conductive particles (A), a photosensitive organic compound (B), an epoxy resin (C) and an ion adsorbent (D) that is selected from the group consisting of hydrotalcite, magnesium oxide, aluminum oxide, aluminum hydroxide, magnesium hydroxide, magnesium carbonate, zirconium oxide, magnesium silicate, silicon dioxide, zeolite and a carbon-based powder. | 2015-09-03 |
20150248054 | PATTERN FORMING METHOD, ACTINIC RAY-SENSITIVE OR RADIATION-SENSITIVE RESIN COMPOSITION, RESIST FILM, METHOD OF MANUFACTURING ELECTRONIC DEVICE, AND ELECTRONIC DEVICE - There is provided a pattern forming method including:
| 2015-09-03 |
20150248055 | PHOTOCURABLE COMPOSITIONS - A photocurable composition comprising a photoresist component, and a perfluoropolyether silane is disclosed. The composition enables easier release of phototool from a photoresist. | 2015-09-03 |
20150248056 | PATTERN FORMING METHOD, MULTI-LAYERED RESIST PATTERN, MULTI-LAYERED FILM FOR ORGANIC SOLVENT DEVELOPMENT, RESIST COMPOSITION, METHOD FOR MANUFACTURING ELECTRONIC DEVICE, AND ELECTRONIC DEVICE - A pattern forming method contains: (i) a step of forming a first film on a substrate by using a first resin composition (I), (ii) a step of forming a second film on the first film by using a second resin composition (II) different from the resin composition (I), (iii) a step of exposing a multi-layered film having the first film and the second film, and (iv) a step of developing the first film and the second film in the exposed multi-layered film by using an organic solvent-containing developer to form a negative pattern. | 2015-09-03 |
20150248057 | RESIST OVERLAYER FILM FORMING COMPOSITION FOR LITHOGRAPHY AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE USING THE SAME - A resist overlayer film forming composition that is used for a lithography process for manufacturing semiconductor devices, and selectively transmits EUV only, in particular, by blocking exposure light undesirable for EUV exposure, such as UV and DUV, without intermixing with a resist, and that can be developed with a developing solution after exposure. A resist overlayer film forming composition including: a hydroxyl group-containing novolac-based polymer containing a structure of (Formula 1-1): | 2015-09-03 |
20150248058 | CONDUCTIVE PATTERN FABRICATION METHOD - A method of producing a conductive pattern includes a light-exposing step of exposing a layer or pattern including conductive particles A, an organic compound B having an unsaturated double bond and a photopolymerization initiator C, and positioned over a substrate to light rays having a broad spectrum, to thereby produce a conductive layer or a conductive pattern. | 2015-09-03 |