12th week of 2016 patent applcation highlights part 39 |
Patent application number | Title | Published |
20160085062 | MICROSCOPE AND METHOD FOR 3D HIGH-RESOLUTION LOCALIZATION MICROSCOPY WITH AN ENLARGED MEASUREMENT REGION - A microscope for high-resolution imaging of a sample in a depth direction and transversely thereto has an excitation beam path for illuminating a sample,—an imaging beam path with an objective and two detectors,—and a phase element. The phase element is situated in a pupil of the imaging beam path and has a different influence on two halves of the pupil cross section. The imaging beam path is split into two partial imaging beam paths downstream of the pupil as seen in the imaging direction, which partial imaging beam paths each lead to one of the two detectors. The two partial imaging beam paths have imaging lengths that differ by a specific wavelength difference such that the two detectors record images of the sample from two different focal planes, which are spaced apart by a distance in the depth direction. | 2016-03-24 |
20160085063 | OPTICAL COUPLER FOR OPTICAL IMAGING VISUALIZATION DEVICE - An optical coupler for mounting at a distal end of an optical imaging device includes a visualization section and an attachment section. At least one surface of the visualization section has a roughness that does not interfere with a video capture system of an optical imaging device. | 2016-03-24 |
20160085064 | MICRO-OPTIC ADAPTERS AND TIPS FOR SURGICAL ILLUMINATION FIBERS - A microstructure optical adapter or tip according to the present disclosure may incorporate precision micro structure optical components engaging the input or output end of light energy delivery devices for customized light delivery of the light energy. The incorporation of precision micro structure optical components in injection molded plastic or glass parts will allow for inexpensive modification of the output light while also serving to protect the end of the illumination device. The micro structure optical components may also be incorporated in an adapter to tailor the light energy to the subsequent device. | 2016-03-24 |
20160085065 | VARIABLE WAVELENGTH INTERFERENCE FILTER, OPTICAL MODULE, AND OPTICAL ANALYSIS DEVICE - An etalon is provided with a fixed substrate and a movable substrate opposed to the fixed substrate. The fixed substrate is provided with a first bonding surface to be bonded to the movable substrate via a bonding film and a first electrode surface on which a part of the first electrode is formed. The movable substrate is provided with a second bonding surface to be bonded to the first bonding surface via the bonding film and a second electrode surface on which a part of the second electrode is formed. In the state in which the fixed substrate and the movable substrate are bonded to each other with the bonding film, the first electrode formed on the first electrode surface and the second electrode formed on the second electrode surface have contact with each other. | 2016-03-24 |
20160085066 | Device and Method for Micro-Electro-Mechanical-System Photonic Switch - In one embodiment, a method of aligning mirrors of a micro-electro-mechanical system (MEMS) photonic switch includes illuminating a first group of photodiodes associated with a first mirror of a first mirror array of the MEMS photonic switch by a first control beam during a first period of time and illuminating a second group of photodiodes associated with a second mirror of the first mirror array by a second control beam during a second period of time, where the second control beam is off during the first period of time, where the first control beam is off during the second period of time, and where the second period of time is after the first period of time. The method also includes illuminating the first group of photodiodes by the first control beam during a third period of time, where the second control beam is off during the third period of time, and where the third period of time is after the second period of time. | 2016-03-24 |
20160085067 | HIGH POWER HANDLING OPTICAL SPATIAL LIGHT MODULATOR - Laser-based material processing systems including a Micro-Electromechanical System devices (MEMs) based reflective, optical modulator with dielectric mirrors for high power handling and methods of manufacturing and using the same are described. Generally, the system includes a workpiece support, a laser, a workpiece support, a laser, a MEMs based reflective, optical modulator to modulate a beam generated by the laser; and imaging optics to direct modulated light from the optical modulator onto a workpiece on the workpiece support. The optical modulator includes a number of surfaces with dielectric mirrors formed thereon to modulate the beam generated by the laser. Other embodiments are also described. | 2016-03-24 |
20160085068 | COMPACT ILLUMINATION SYSTEM - An illumination system includes a light source arranged for emitting non-collimated light towards a reflective surface of a scanning mirror assembly such that the light source occludes a region of the light reflected from the reflective surface. The scanning mirror assembly includes the reflective surface, which is arranged to be rotationally displaced around at least one rotation axis. The illumination system also includes an optical element for changing the propagation direction of the said reflected light so as to illuminate at least a part of the said occluded region. | 2016-03-24 |
20160085069 | IMAGING DEVICE - A imaging device includes: a lens unit which is rotatable about an optical axis thereof; an adjusting gear unit which includes an adjusting gear that rotates the lens unit; a case which accommodates the lens unit and the adjusting gear unit and has a penetration hole through which a portion of the adjusting gear protrudes outward from an accommodation space; and a cover which covers a portion of the case including the penetration hole from outside of the case. | 2016-03-24 |
20160085070 | AMBIENT DISPLAY - A windshield includes a windshield body and an ambient display coupled to the windshield body. The ambient display includes a light guide plate and a light source optically coupled to the light source. Aside from the light source, the ambient display includes a transparent phosphor film and an optic array. The transparent phosphor film includes at least one phosphor. The optic array includes a plurality of lenses and is disposed between the light guide plate and the transparent phosphor film. The light guide plate is positioned relative to the optic array such that light emitted from the light source is directed toward the optic array. The chromaticity and luminance of the light emitted by the transparent phosphor film can be adjusted based on the electrical current received by the light source. | 2016-03-24 |
20160085071 | SEE-THROUGH COMPUTER DISPLAY SYSTEMS - Aspects of the present invention relate to providing see-through computer display optics. | 2016-03-24 |
20160085072 | SEE-THROUGH COMPUTER DISPLAY SYSTEMS - Aspects of the present invention relate to methods and systems for the see-through computer display systems with an extended field of view. | 2016-03-24 |
20160085073 | SEMITRANSPARENT MONOCULAR VIEWING SYSTEM - The field of the invention is that of viewing systems comprising means for generating images of a preset object and a viewing device comprising a semitransparent projection screen on which said images are formed. The viewing system according to the invention comprises a piece of eyewear comprising two eyeglasses, the first eyeglass transmitting said images and the second not transmitting them, both eyeglasses transmitting the exterior landscape. The first eyeglass may be passively obturated via spectral selection or polarization or actively via sequential selection. | 2016-03-24 |
20160085074 | WIDE ANGLE AND HIGH RESOLUTION TILED HEAD-MOUNTED DISPLAY DEVICE - A tiled head-mounted display device, comprising: an optical component including a plurality of prisms with free-form surfaces, each prism being a wedge prism comprising a first optical surface, a second optical surface and a third optical surface; and a display component including a plurality of micro-displays, wherein the number of the micro-displays and the number of the prisms with free-form surfaces is identical. The tiled head-mounted display device according to the present invention is compact and light, provides wide field of view and high resolution, especially for the optical tiling head-mounted display device, the exit pupil planes of each display channels are coincident, thus avoiding pupil aberration and keeping exit pupil diameter and eye clearance same as the single ocular. There is no resolution variance throughout the entire field of view, thus preventing extra trapezoid distortion. The tiled head-mounted display device according to the present invention can be readily applicable to augmented environments applications by simply adding an auxiliary free-form lens behind the free-form prism. | 2016-03-24 |
20160085075 | OPTICAL SEE-THROUGH FREE-FORM HEAD-MOUNTED DISPLAY - A see-through free-form head-mounted display including a wedge-shaped prism-lens having free-form surfaces and low F-number is provided. | 2016-03-24 |
20160085076 | Head-Mounted Display Apparatus for Retaining a Portable Electronic Device with Display - Head-mounted display systems and methods of operation that allow users to couple and decouple a portable electronic device such as a handheld portable electronic device with a separate head-mounted device (e.g., temporarily integrates the separate devices into a single unit) are disclosed. The portable electronic may be physically coupled to the head-mounted device such that the portable electronic device can be worn on the user's head. The portable electronic device may be operatively coupled to the head-mounted device such that the portable electronic device and head mounted device can communicate and operate with one another. Each device may be allowed to extend its features and/or services to the other device for the purpose of enhancing, increasing and/or eliminating redundant functions between the head-mounted device and the portable electronic device. | 2016-03-24 |
20160085077 | Mount Arm for a Helmet Mounted Display - A mount arm has a first end and a second end where the first end is configured to be mounted to a helmet. The mount arm has a first adjustment mechanism proximate the first end and is configured to position the second end of the mount arm relative to a user's eye when the mount arm is mounted to the helmet. A second adjustment mechanism is proximate the second end of the mount arm and is configured to position an optical member relative to the user's eye when the mount arm is mounted to the helmet. When the mount arm is mounted to the helmet, the mount arm is configured to pivot from an in-use position where the optical member is positioned in front of the user's eye to a stowage position where the optical member is moved out of the user's field of vision. | 2016-03-24 |
20160085078 | LASER DIODE UNIFORM ILLUMINATOR - A fluorescence imaging system including a light source, an optical system, camera and an excitation light filter, the optical system produces a non-uniform fluence excitation illumination beam for illuminating an object and promoting fluorescence emissions, the optical system is positioned between the light source and the object, the optical system modifies the non-uniform fluence illumination beam into a uniform fluence illumination beam and changes the divergence of the uniform fluence illumination beam, the camera has an array of pixels, the camera detects the fluorescence emissions and performs pixel intensity measurements for each of the pixels, the excitation light filter is positioned between the object and the camera and filters out the excitation illumination beam, such that the excitation illumination beam does not reach the camera. | 2016-03-24 |
20160085079 | Handheld, Low-Level Laser Apparatuses and Methods for Low-Level Laser Beam Production - A handheld, low-level laser apparatus includes a laser diode configured to generate a laser emission having an astigmatism. The apparatus further includes one or more corrective lens configured alone or in combination to correct the astigmatism and to collimate the laser emission, a divergence lens configured to diverge the laser emission after the laser emission passes through the one or more corrective lens, and a front lens configured to collimate the laser emission after the laser emission passes through the divergence lens. A low-level laser beam producing method includes repeatedly directing an IR laser emission through a series of lenses during a first set of time periods and repeatedly directing a visible laser emission through the series of lenses during a second set of time periods, each time period of the first set of time periods being distinct from each time period of the second set of time periods. | 2016-03-24 |
20160085080 | LENS CARRIER AND OPTICAL MODULE FOR A LIGHT CURTAIN AND FABRICATION METHOD - A lens carrier and an optical module for forming a light curtain associated with monitoring a protective field. The lens carrier includes at least one lens for focussing a radiation beam forming said light curtain and a lens mask having at least one opening for shaping the radiation beam to have a predetermined aperture. The lens carrier is formed by overmolding said lens mask with a transparent material. The optical module has such a lens carrier and a module body for mounting a radiation transmitter/receiver carrier that comprises at least one transmitter and/or receiver for transmitting and/or receiving said radiation. | 2016-03-24 |
20160085081 | PRISM UNIT AND PROJECTOR - A prism unit that combines light in the three primary colors of R, G, and B on the same optical axis includes: a G-reflecting dichroic coating that reflects G light and passes R and B light; and an RB dichroic coating that reflects one of R and B, and passes the other one of R and B, the prism unit satisfying the following conditional expression: λrg≧λrb≧0.67×λrg+0.33×λgb, where λgb represents the wavelength at which the transmittance is 50% when the colors of G and B on the composite optical axis are combined, λrg represents the wavelength at which the transmittance is 50% when the colors of R and G on the composite optical axis are combined, and λrb represents the wavelength at which the transmittance is 50% when the colors of R and B on the composite optical axis are combined. | 2016-03-24 |
20160085082 | LIQUID CRYSTAL LENS AND LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal lens and a liquid crystal display device. The liquid crystal lens includes a first substrate, a second substrate deposed oppositely, and a liquid crystal layer. A metal layer, an insulation layer, and an electrode layer are stacked on the second substrate adjacent to the first substrate. The electrode layer includes multiple electrodes disposed separately. Wherein, among the multiple electrodes disposed separately, a height of the electrode which a maximum voltage is applied on is lower than a height of an adjacent electrode. By the above way, the actual equivalent refractive index n | 2016-03-24 |
20160085083 | OPTICAL DEVICE AND PROJECTION VIDEO DISPLAY DEVICE - The optical device includes a diffuser which diffuses light, a holder which holds the diffuser, a driver which vibrates the holder, and a supporter whose one end elastically supports the holder at one point and whose other end is fixed to an installation plane. | 2016-03-24 |
20160085084 | PROJECTION DEVICE - According to the present invention there is provided a projection device ( | 2016-03-24 |
20160085085 | LENS DRIVING MODULE - A lens driving module includes a holder, a cover, a carrier, at least one first magnet, a first coil, at least two second magnets, at least one first sensor and at least one second sensor. The holder includes an opening hole. The cover is made of metal material and coupled to the holder. The carrier is movably disposed in the cover and for coupling to a lens. The first magnet is movably disposed in the cover. The first coil is wound around an outer side of the carrier. The second magnets are disposed on one end of the carrier. The first sensor is for detecting a magnetic field of the second magnets. The second sensor is for detecting a magnetic field of the first magnet. | 2016-03-24 |
20160085086 | CAMERA LENS MODULE - A camera lens module includes a lens unit, an automatic focus actuator including a first flexible circuit board. The first flexible circuit board has a plurality of first coil windings and a first Hall sensor. The plurality of first coil windings actuates the lens unit along an optical axis. An image stabilization actuator includes an image stabilization carrier having a plurality of magnets facing the first coil windings and a second flexible circuit board having a plurality of second coil windings facing respective lower surfaces of the magnets and a second Hall sensor. The camera lens module includes a base coupled with the image stabilization actuator under the image stabilization actuator, and a plurality of rollers disposed on the base and configured to rollably move the image stabilization actuator. | 2016-03-24 |
20160085087 | CAMERA MODULE - A camera module according to the embodiment includes a housing; a lens barrel disposed in the housing to receive a lens; and an elastic member connecting the housing to the lens barrel, and comprising a first elastic part and a second elastic part bent from the first elastic part to have a height from a plane perpendicular to an optical axis of the lens, which is different from a height of the first elastic part. Therefore, the camera module may automatically correct a shake and may adjust a focus. | 2016-03-24 |
20160085088 | ULTEM SPECTACLE LEG WITH LIGHT WEIGHT AND LARGE WIDTH - The invention relates to an Ultem spectacle leg with a light weight and a large width, and more specifically the Ultem spectacle leg ( | 2016-03-24 |
20160085089 | VISION MODIFICATION WITH REFLECTED IMAGE - Various embodiments of methods and systems for improving and enhancing vision are disclosed. Adjustable lenses or optical systems may be used to provide adaptive vision modification. In some embodiments, vision modification may be responsive to the current state of the user's visual system. Certain embodiments provide correction of the subject's near and far vision. Other embodiments provide enhancement of vision beyond the physiological ranges of focal length or magnification. | 2016-03-24 |
20160085090 | OPTICAL ELEMENT FOR CORRECTING COLOR BLINDNESS - Described herein are devices, compositions, and methods for improving color discernment. | 2016-03-24 |
20160085091 | EYEGLASS FRAME STRUCTURE HAVING U-SHAPED WIND PASSAGE AND EYEGLASSES HAVING THE SAME - An eyeglass frame structure includes a frame, an eyeglass arm pivoting portion disposed separately on both sides of the frame, a lens connecting portion disposed between the eyeglass arm pivoting portions, a U-shaped wind passage formed at each eyeglass arm pivoting portion and having a wind inlet on a windward side of the frame and a wind outlet on a leeward side of the frame for guiding wind transversely to the leeward side of the lens. Eyeglasses with the eyeglass frame structure including two eyeglass arms, two lenses and two nose pads guide wind transversely to the leeward side of the lens to prevent the formation of mists, return air from causing discomfort to wearer's eyes, and tiny objects from entering into the leeward side of the lens. The glasses require no hole or slot formed on the lens, so that the lens structure is not damaged. | 2016-03-24 |
20160085092 | MODULAR HEADS-UP DISPLAY SYSTEM - A modular electronic communication system is disclosed with interchangeable components attachable on eyewear. A plurality of pre-existing eyewear models can each be retrofitted by attachment of one or more of such interchangeable components to that eyewear. Such components can be configured for custom attachment with a particular eyewear or such components can be configured for universal attachment with one or more different eyewear models. The communication system can be configured to produce an adjustable heads-up display for the wearer of the eyewear. The electronic communication system can comprise a plurality of interchangeable, electronically interconnected components, such as a first optical module, a first base module, a base link, a second base module, and/or a second optical module. In some embodiments, one or more or all of the components of the electronic communication system are integrally and permanently attached to an eyewear and are not interchangeable or modular. | 2016-03-24 |
20160085093 | DISPLAY PANEL - A display panel including a first polarizer, a second polarizer, a first substrate, a second substrate, a liquid crystal layer, and a pixel array is provided. The pixel array disposed on the first substrate includes a pixel area wherein a pixel electrode is disposed. The pixel electrode includes a first main electrode, a second main electrode, which substantially perpendicularly intersecting for defining a first domain, a second domain, a third domain, and a fourth domain of the pixel area, and a plurality of branch electrodes separately connected to the first or the second main electrode. When a maximum voltage is applied to the display panel, the liquid crystal layer has an average Azimuthal Angle represented as y1, satisfying B12016-03-24 | |
20160085094 | LIQUID CRYSTAL DISPLAY DEVICE WITH REPAIR FUNCTION AND REPAIR TYPE DATA FORMAT STRUCTURE - The present examples relate to a liquid crystal display device with a repair function. The present examples repair a defect of a line or a defect of a pixel, using a specialized data signal structure, wherein the data signal structure integrates channel data, which is required for channel driving of a liquid crystal display element, and repair amplifier data, which is used for repairing a defect of a line and/or a pixel. Thus, examples have a better repair function than an alternative liquid crystal display device. | 2016-03-24 |
20160085095 | POLYMER-DISPERSED BLUE-PHASE LIQUID CRYSTAL FILMS - A polymer-dispersed blue-phase (PDBP) liquid crystal film is formed from a polymer-based latex and blue-phase liquid crystals that are combined using an emulsification process or a polymerization-induced phase separation process. The resultant PDBP liquid crystal film includes droplets formed by the polymer-based latex that encapsulate the blue-phase liquid crystals therein, so as to allow the blue-phase liquid crystals to have a blue phase at room temperature. As such, the PDBP liquid crystal film is conducive for use in manufacturing processes, such as LCD (liquid crystal display) manufacturing processes, while providing desirable optical features, such as field-induced birefringence at low switching voltages. | 2016-03-24 |
20160085096 | OPTICAL APPARATUS AND DISPLAY APPARATUS PROVIDED WITH SAME - An optical device ( | 2016-03-24 |
20160085097 | METHOD OF MANUFACTURING A LIQUID CRYSTAL DEVICE - A method of manufacturing a liquid crystal device having a first substrate and a second substrate facing each other with a liquid crystal layer interposed therebetween, and a sealing member formed in a peripheral portion of at least one of the substrates. The method includes forming the sealing member, disposing the liquid crystal layer inside the sealing member, and bonding the first substrate to the second substrate. In forming the sealing member, a ring-shaped portion that seals the liquid crystal layer inside the sealing member, a first sealing layer and a second sealing layer that face each other to be separated from each other are formed. In the bonding of the first substrate to the second substrate, a junction portion is formed in which the first and second sealing layers are pressed and joined outside the sealing member so as to form the ring-shaped portion. | 2016-03-24 |
20160085098 | METHOD OF MANUFACTURING A LIQUID CRYSTAL DEVICE - A method of manufacturing a liquid crystal device having a first substrate and a second substrate facing each other with a liquid crystal layer interposed therebetween, and a sealing member formed in a peripheral portion of at least one of the substrates. The method includes forming the sealing member, disposing the liquid crystal layer inside the sealing member, and bonding the first substrate to the second substrate. In forming the sealing member, a ring-shaped portion that seals the liquid crystal layer inside the sealing member, a first sealing layer and a second sealing layer that face each other to be separated from each other are formed. In the bonding of the first substrate to the second substrate, a junction portion is formed in which the first and second sealing layers are pressed and joined outside the sealing member so as to form the ring-shaped portion. | 2016-03-24 |
20160085099 | DISPLAY PANEL AND METHOD OF MANUFACTURING THE SAME - A display panel includes a substrate, a thin-film transistor (TFT) disposed on the substrate, a first electrode electrically connected to the thin-film transistor, a roof layer disposed on the first electrode and a liquid crystal layer. The roof layer includes an organic insulating material, and defines a cavity that overlaps the first electrode. The liquid crystal layer is disposed in the cavity and is in direct contact with the roof layer. | 2016-03-24 |
20160085100 | DISPLAY DEVICE WITH A CAPACITIVE TOUCH PANEL - A display device including a laminate between a display panel and a cover layer, the laminate having a viewing-side polarizing plate; a first conductive layer, a dielectric layer and a second conductive layer constituting a capacitive touch sensor; and a substrate, the first conductive layer, dielectric layer, second conductive layer, and substrate are positioned closer to the cover layer than is the viewing-side polarizing plate, the first conductive layer is formed on one surface of the substrate, the dielectric layer is formed on a surface of the first conductive layer opposite to the substrate side, the second conductive layer is formed on a surface of the dielectric layer opposite to the first conductive layer side, the substrate has an optical film with a predetermined phase difference, the viewing-side polarizing plate has a polarizing film, a slow axis of optical film intersects a transmission axis of polarizing film at predetermined angle. | 2016-03-24 |
20160085101 | OPTICAL SHEET MEMBER AND IMAGE DISPLAY DEVICE EMPLOYING SAME - An optical sheet member includes a polarizing plate including a polarizer, a brightness enhancement film including a reflection polarizer, and a λ/4 plate, in which the reflection polarizer includes a first light reflecting layer which has a reflection center wavelength range of 430 nm to 480 nm, and is formed by fixing a cholesteric liquid crystalline phase emitting circular polarization light, a second light reflecting layer which has a reflection center wavelength range of 500 nm to 600 nm, and a third light reflecting layer which has a reflection center wavelength range of 600 nm to 650 nm, and both formed by fixing a cholesteric liquid crystalline phase emitting circular polarization light, and the brightness enhancement film includes the λ/4 plate satisfying 550 nm/4-25 nm2016-03-24 | |
20160085102 | OPTICAL SHEET MEMBER AND IMAGE DISPLAY DEVICE USING SAME - An optical sheet member includes a polarizing plate including a polarizer (A); an optical conversion member (D); and a brightness enhancement film including a reflection polarizer (B), in which the brightness enhancement film has a reflection center wavelength range of 400 nm to 500, and the optical conversion member (D) converts a part of blue light which is transmitted through polarizer (B) and is incident on the optical conversion member (D), and has an emission center wavelength range of 400 nm to 500 nm and which has an emission center wavelength range of 500 nm to 600 nm and red light which has an emission center wavelength range of 600 nm to 700 nm, and transmits a part of the blue light. When the optical sheet member is incorporated in an image display device, front brightness, contrast, and a color reproducing region are enhanced, and color unevenness is reduced. | 2016-03-24 |
20160085103 | LIQUID CRYSTAL PANEL AND MANUFACTURING METHOD THEREOF - A manufacturing method for a liquid crystal panel, comprising: coating a photoresist layer on a substrate; utilizing a first exposure energy and a first mask for executing a first exposure process to form a spacing column having a first height, wherein, the first mask has a first light transparent area corresponding to a dark area; utilizing a second exposure energy and a second mask for executing a second exposure process to form a spacing column having a second height, wherein, the second mask has a second light transparent area corresponding to the dark area, and the second height is greater than the first height; and removing an unexposed portion of the photoresist layer. Through above way, the present invention can improve the pixel transmittance of the dark area in order to reduce or eliminate the dark area. | 2016-03-24 |
20160085104 | MASK, SPACER PRODUCED BY USING THE MASK AND METHOD FOR PRODUCING SPACER USING THE MASK - Embodiments of the present invention provide a mask, a spacer produced by the mask and a method for producing a spacer using the mask. They may reduce the bottom size of a cylinder-shaped spacer while keeping the top size of it to meet the design requirements for high resolution TFT-LCD. The mask provided by the embodiments includes a mask substrate on which a light transmission region and a light shielding region are provided, wherein a Fresnel zone plate is arranged in the light transmission region and configured to form a spacer on a glass substrate. | 2016-03-24 |
20160085105 | LIQUID CRYSTAL DISPLAY DEVICE - Disclosed is a liquid crystal display device that includes first and second substrates; a liquid crystal layer between the first and second substrates; first and second bumps on the first substrate; and at least one first protrusion facing the first bump, and at least one second protrusion facing the second bump, the first and second protrusions being on the second substrate, wherein the first protrusion faces one side of the first bump, and the second protrusion faces the other side of the second bump. | 2016-03-24 |
20160085106 | LIQUID CRYSTAL DISPLAY - A liquid crystal display includes a substrate, a plurality of signal lines, a gate driver, and a sealant. The substrate includes a display area and a peripheral area outside the display area. The signal lines are integrated with the substrate and include a clock signal line. The gate driver includes a stage located between the clock signal line and the display area. The stage is integrated with the substrate and is configured to apply a gate voltage to the display area. The sealant is distributed over part of the peripheral area. A seal region where the sealant is distributed includes a seal line, and the clock signal line is located within the seal line. The clock signal line is located further away from the stage than the other signal lines. | 2016-03-24 |
20160085107 | LIQUID CRYSTAL DISPLAY DEVICE - According to one embodiment, a liquid crystal display device includes a first substrate including an insulative substrate, a first electrically conductive layer, a second electrically conductive layer, a third electrically conductive layer, a fourth electrically conductive layer. The first electrically conductive layer includes a gate line located on the insulative substrate, a common potential line and a first pad portion. The second electrically conductive layer includes a common electrode which is located on the insulative substrate and is put in contact with the common potential line, and a second pad portion stacked on the first pad portion. The fourth electrically conductive layer includes a pixel electrode in which a slit facing the common electrode is formed, and a third pad portion which is put in contact with the second pad portion. | 2016-03-24 |
20160085108 | DEVICE FOR REGULATING THE PASSAGE OF ENERGY - The present application relates to a device for regulating the passage of energy which is characterised in that it comprises at least two switching layers S(1) and S(2) arranged one behind the other, where the switching layers comprise a liquid-crystalline medium comprising at least one dichroic compound. | 2016-03-24 |
20160085109 | DISPLAY DEVICE - A display device includes a bottom chassis on which a light source is disposed, a light guide plate disposed on the bottom chassis and configured to guide light emitted from the light source to a display panel, an optical sheet on the light guide plate, a mold frame coupled to the bottom chassis and including a support unit on which the display panel is disposed, and a light conversion shielding member disposed on a surface of the support unit of the mold frame having a side portion that extends down from the support unit and covers a side surface of the optical sheet. | 2016-03-24 |
20160085110 | DISPLAY DEVICE - A display device includes: a display panel curved in one direction; and a middle frame supporting a lower edge portion of the display panel. The middle frame includes: a first support having a predetermined curvature; and a second support extending at a predetermined angle from the first support, the first support having a height difference at an end portion. | 2016-03-24 |
20160085111 | DISPLAY APPARATUS - A display apparatus includes a frame that holds a display module. The display module includes a protective member located on a display surface side of a display panel. The frame has a plane surface opposed to a periphery of the protective member and a side surface opposed to a side surface of the display module. The plane surface of the frame is fixed to the periphery of the protective member through a joining member. The display apparatus has a fixing structure to fix the side surface of the frame to the side surface of the display module. | 2016-03-24 |
20160085112 | LIGHT SOURCE DEVICE AND DISPLAY DEVICE - Provided are a light source device and a display device with an assembly constitution that can reduce the size of a frame and make the frame less conspicuous. A light source device is constituted such that a front cabinet having a U-shaped cross-section and a front cover are attached as a unit on an outer peripheral part of a backlight unit, and A display device is constituted such that the front cabinet having a U-shaped cross-section and the front cover are attached as a unit on an outer peripheral part of a liquid-crystal unit, a lens cover is attached by joining joining-groove parts to lens fixing claws provided on the front cabinet and the peripheral edge part of the lens cover is held by pressing piece on the front cover. | 2016-03-24 |
20160085113 | LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - The present invention provides a liquid crystal display panel and manufacturing method thereof. The manufacturing method comprises: coating a photoresist layer; exposing the photoresist layer through a first mask and a second mask such that the black matrices with different widths are formed, wherein, along a direction extended from a middle area to a two-side area of the liquid crystal display panel, transmittances of the second transparent regions of the second mask are successively increased such that the width of the black matrices are successively increased. By doing so, the present invention makes the brightness displayed by the liquid crystal display panel be uniform such that the two-side whitening occurred while displaying on the liquid crystal display panel can be reduced or eliminated. | 2016-03-24 |
20160085114 | DISPLAY DEVICE - A display device includes a display panel and a backlight. The display panel has the first substrate, the second substrate, a liquid crystal layer sandwiched between the first and second substrates, the first circularly polarizing plate arranged on the observer's side of the first substrate, the second circularly polarizing plate arranged between the second substrate and the backlight, and a scattering film arranged on the observer's side of the first circularly polarizing plate. | 2016-03-24 |
20160085115 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display panel for displaying images in an active area includes a first substrate having a pair of first short ends and first long ends. A second substrate faces the first substrate so as to hold a liquid crystal layer therebetween. A first polarization plate is arranged on an outside surface of the first substrate. The first polarization plate has a pair of second short ends longer than the first short ends, a pair of second long ends, and a first absorption axis. The angle a1 made by the first absorption axis with respect to the second short ends is smaller than an angle b1 made by the first absorption axis with respect to the second long ends. A second polarization plate is arranged on an outside surface of the second substrate and has a second absorption axis. | 2016-03-24 |
20160085116 | TRANSFLECTIVE TYPE LIQUID CRYSTAL PANEL - A transflective type liquid crystal panel includes a plurality of sub-pixels arranged in rows and columns to form a sub-pixel array, a plurality of first wires extending along the row direction or the column direction, and a plurality of second wires which are parallel with the first wires. The plurality of sub-pixels includes transmissive sub-pixels and reflective sub-pixels. Each row and column in the sub-pixel array has both transmissive sub-pixels and reflective sub-pixels. The transmissive sub-pixels are connected to and driven by the first wires, and the reflective sub-pixels are connected to and driven by the second wires. | 2016-03-24 |
20160085117 | DIRECT BACKLIGHT AND TELEVISION RECEIVER - A direct backlight includes a substrate having a plurality of light sources provided thereon; an optical member being provided at such a position as to face the light sources; and a supporting pole, fixed in between each adjacent two of the light sources on the substrate, for supporting the optical member, the supporting pole having light transparency, the supporting pole including two surfaces at least some region of which are mirror-finished and which respectively face the each adjacent two of the light sources. | 2016-03-24 |
20160085118 | LIQUID CRYSTAL LENS DISPLAY DEVICE - A liquid crystal lens display device, which includes a backlight module and a liquid crystal structure. The liquid crystal structure includes a liquid crystal layer, a quantum dot layer, and a light shield structure. The liquid crystal layer defines multiple display pixels, and each display pixel may be switchable between an on state and an off state. The light shield structure includes two shield layers, each having multiple openings and multiple shield portions alternatively positioned. When the display pixel is in the on state, the liquid crystal molecules form at least one liquid crystal lens to refract the blue light beams, and the refracted light beams penetrate through the openings of the light shield structure to reach the quantum dot layer. When the display pixel is in the of state, the light beams will not be refracted, and will thus be blocked by the light shield structure. | 2016-03-24 |
20160085119 | LIQUID CRYSTAL DISPLAY DEVICE AND MATERIAL FOR ALIGNMENT FILM - A liquid crystal display device including an alignment film which has been optically aligned is configured that the liquid crystal has negative dielectric anisotropy, an absolute value of which is equal to or smaller than 5. The alignment film is subjected to an optical alignment process to exhibit the optical alignment property, and includes a first film located at a side in contact with the liquid crystal, and a second film below the first film, which is not optically aligned to have no alignment property. The alignment film is formed by applying a mixture of a first material for forming the first film and a second material for forming the second film to the substrate. The first material for the alignment film accounts for 10 wt. % or more and less than 40 wt. % of a total weight of the first and the second materials. | 2016-03-24 |
20160085120 | DISPLAY PANEL AND DISPLAY DEVICE - This disclosure relates to a display panel and a display device, said display panel comprising an array substrate, a color film substrate and a first liquid crystal layer disposed between the array substrate and the color film substrate, said display panel further comprising an electro-optic effect layer and an electrode layer disposed on one side or on both sides of the electro-optic effect layer; said electrode layer is used to generate an electric field in said electro-optic effect layer; said electro-optic effect layer is disposed on an outer side of the array substrate or on an outer side of the color film substrate, for causing birefringence of light rays to occur under the effect of said electric field when they pass through said electro-optic effect layer. Said display panel is capable of flexibly adjusting the color gamut displayed by the display panel within a larger range and has a lower cost. | 2016-03-24 |
20160085121 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a substrate having pixel regions and a counter substrate opposed thereto. One of the pixel regions is defined by a pair of gate lines extending in a first direction and a pair of data lines extending in a second direction. A first insulating layer is disposed on the substrate corresponding to the pixel region. A first common electrode is continuously disposed on the first insulating layer and overlaps the data lines. A pixel electrode pattern is disposed above the first common electrode. A second insulating layer is interposed between the first common electrode and the pixel electrode pattern. A second common electrode is disposed above one of the data lines and electrically connected to the first common electrode. A projection of the second common electrode on the substrate overlaps a projection of the one of the data lines on the substrate. | 2016-03-24 |
20160085122 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a plurality of pixels arranged in a matrix pattern, each pixel including a first electrode and a second electrode for generating a transverse electric field, wherein: in a first group of pixels arranged in a line along either a row direction or a column direction, pairs of pixels are arranged repeatedly, each pair of pixels including two adjacent pixels that are different from each other in terms of an electrode structure of at least one of the first electrode and the second electrode; and voltages of the same polarity are applied to the two adjacent pixels included in the pair of pixels, and voltages of different polarities from each other are applied to two pixel pairs adjacent to each other in the first group of pixels. | 2016-03-24 |
20160085123 | LIQUID CRYSTAL DISPLAY - A liquid crystal display includes: a first insulation substrate; a gate line disposed on the first insulation substrate; a first data line and a second data line disposed on the first insulation substrate; a color filter disposed on the first insulation substrate and disposed between the first data line and the second data line; a first light blocking member disposed on the first data line and the second data line; and a second light blocking member disposed on the color filter and the first light blocking member, extending in the same direction as the gate line, and overlapping the first light blocking member on the first data line and the second data line. | 2016-03-24 |
20160085124 | PIXEL STRUCTURE AND MANUFACTURING METHOD THEREOF, DISPLAY PANEL AND DISPLAY DEVICE - The present invention relates to a pixel structure and a manufacturing method thereof, a display panel and a display device. The pixel structure comprises a plurality of columns of pixels, a data line is provided between every two adjacent columns of pixels, each pixel comprises a pixel electrode and a thin film transistor comprising a gate, an active layer, a source and a drain, wherein, a gate protective layer is provided between the gates and the active layers, grooves, each of which is at least partially located between two adjacent columns of pixels, are provided in the gate protective layer, for opposite ends of the pixel electrodes of the two adjacent columns of pixels and the data line between the two adjacent columns of pixels, one is located in the groove, and the other is located on a part of the gate protective layer without the groove. | 2016-03-24 |
20160085125 | Displays With Bent Signal Lines - A display may be provided with an active central region and a peripheral inactive region. The display may have one or more flexible edges in the peripheral inactive region. Conductive lines may pass between components in the active central region such as display pixels and touch sensor electrodes and components in the inactive peripheral region such as gate driver circuitry and patterned interconnect lines. Each conductive line may have an unbent segment on a portion of a display layer in the active central region and may have a segment on the bent edge of the display layer. The display layer may be formed from a polymer or other flexible material. The bent segments may be configured to be less susceptible to increases in resistance from bending than the unbent segments. | 2016-03-24 |
20160085126 | ELECTROCHROMIC DEVICE - An electrochromic device includes a stack successively including: a first current collector, an electrochromic electrode made of a material capable of reversibly inserting metal ions, an electrolyte, a second current collector, a reflective substrate contacting the first current collector or with the second current collector. It includes a single electrochromic electrode and has at least the two following functional states: a first absorbing functional state, induced by the application of a first electric voltage between the two current collectors, wherein the device includes metal ions reversibly inserted into the material of the electrochromic electrode; and a second reflective functional state subsequent to the application of a second electric voltage between the two current collectors, wherein a metal layer is formed between the electrolyte and the second current collector, this metal layer including at least part of the metal ions initially reversibly inserted into the material of the electrochromic electrode. | 2016-03-24 |
20160085127 | ELECTROCHROMIC LITHIUM NICKEL GROUP 4 MIXED METAL OXIDES - Multi-layer devices comprising a layer of an electrochromic lithium nickel oxide composition on a first substrate, the lithium nickel oxide composition comprising lithium, nickel and a Group 4 metal selected from titanium, zirconium, hafnium and a combination thereof. | 2016-03-24 |
20160085128 | Electrochromic Devices and Manufacturing Methods Thereof - A method for enhancing the reliability of contacting the conductive layers in a laminated electrochromic device structure is disclosed (FIG. | 2016-03-24 |
20160085129 | ELECTRO-OPTIC ELEMENT WITH ABLATION-FORMED INDICIA AND METHODS FOR MAKING THE SAME - An electro-optic element is provided that includes a first substrate having a first surface, and a second surface having a first electrically conductive portion disposed thereon. The element also includes a second substrate having a third surface, a fourth surface, and a second electrically conductive portion disposed on at least the third surface. A primary seal is between the second and third surfaces, wherein the seal and the second and third surfaces define a cavity. An electro-optic medium disposed in the cavity. In addition, the second surface further includes at least one indicia disposed thereon between the electro-optic medium and the second surface. | 2016-03-24 |
20160085130 | SYSTEMS AND METHODS FOR CONTROLLING ELECTROCHROMIC DEVICES USING INTEGRATED POWER SOURCE - An electrochromic device comprising: an active electrochromic layer having optical properties that vary based on an electrical voltage applied to the active electrochromic layer; an integrated energy source integrated within the electrochromic device for generating or storing electrical energy; and a controller operatively coupled to the energy source and the active electrochromic layer for applying the electrical energy generated or stored by the integrated energy source to the active electrochromic layer to achieve the optical properties desired by a user. The described electrochromic device is entirely self-contained and internally produces all the electrical energy necessary for its operation and specifically for the operation of the controller and for controlling the optical properties of the electrochromic layer. In other words, there no external wiring or any kind is required for supplying electric energy to the electrochromic device. | 2016-03-24 |
20160085131 | VARIABLE TRANSMITTANCE OPTICAL DEVICES - A self-powered variable transmittance optical device, such as a smart window or other device, and associated method are provided. The device comprises one or more transparent substrates, with a switching material disposed thereon or therebetween. The switching material may be a hybrid photochromic/electrochromic material capable of transitioning from a first transmittance state to a second transmittance state with application of electricity, and from second state to first state due to another stimulus, such as UV radiation. Electrodes are coupled to the switching material for applying electricity. An electrical system provides for controllable application of the electricity, and may store energy. Energy is provided by an energy-harvesting power source such as a solar cell or other photovoltaic source, or array thereof, or another device for harvesting vibrational or thermal energy. Energy harvesting, energy storage capacity and/or switching material may be configured to provide at least a predetermined level of device operability | 2016-03-24 |
20160085132 | COLORED ELECTROPHORETIC DISPLAYS - An electrophoretic medium comprises a fluid, a first, light scattering particle (typically white) and second, third and fourth particles having three subtractive primary colors (typically magenta, cyan and yellow); at least two of these colored particles being non-light scattering. The first and second particles bear polymer coatings such that the electric field required to separate an aggregate formed by the third and the fourth particles is greater than that required to separate an aggregate formed from any other two types of particles. Methods for driving the medium to produce white, black, magenta, cyan, yellow, red, green and blue colors are also described. | 2016-03-24 |
20160085133 | DIFFERENTIAL TWE MZM DRIVER FOR SILICON PHOTONICS - A differential TWE MZM includes a differential driver, first and second capacitors, and first and second terminations. The differential driver includes a first differential output and a second differential output that collectively form a differential pair. The first differential output is DC coupled to a cathode of a first arm optical phase shifter of a TWE MZM. The second differential output is DC coupled to a cathode of a second arm optical phase shifter of the TWE MZM. The first capacitor AC couples the second differential output to an anode of the first arm optical phase shifter. The second capacitor AC couples the first differential output to an anode of the second arm optical phase shifter. The first and second terminations are coupled to the cathode and the anode of, respectively, the first or second arm optical phase shifter. | 2016-03-24 |
20160085134 | OPTICAL SENSOR AND METHOD OF MANUFACTURE - An optical sensor and method of manufacture are provided herein. The optical sensor includes an optical fiber comprising a terminating end surface, and a photonic crystal coupled to the terminating end surface of the optical fiber. | 2016-03-24 |
20160085135 | APPARATUS AND METHOD FOR SINGLE-CHANNEL DIGITAL OPTICAL PHASE CONJUGATION - A single-channel phase conjugation apparatus includes a spatial light modulator and a single-channel optical sensing and generating unit. The spatial light modulator receives a light having a wavefront scattered by a scattering object. The single-channel optical sensing and generating unit senses a phase control wavefront of an output light focused by the spatial light modulator and outputs a light having a phase conjugation wavefront by changing a direction of the output light in a reverse direction depending on the phase control wavefront. | 2016-03-24 |
20160085136 | VOLTAGE CONTROLLED OPTICAL DIRECTIONAL COUPLER - A voltage controlled optical directional coupler (VCODC) having a coupling ratio that can be adjusted to any desired value through voltage tuning is disclosed. The VCODC may include a first optical hybrid coupler and a second optical hybrid coupler, which may be coupled with each other via one or more voltage controlled optical elements having a variable transparency depending on a voltage applied to the one or more voltage controlled optical elements. The VCODC may be configured to divert a portion of optical power received to a trunk input of the VCODC to a tap output of the VCODC based on the variable coupling ratio of the VCODC, which may be dependent on the variable transparency of the one or more voltage controlled optical elements. | 2016-03-24 |
20160085137 | SUPERCONTINUUM LIGHT SOURCE - A supercontinuum light source includes a microstructured optical fiber, and a feeding unit arranged for feeding pump pulses to the microstructured optical fiber, wherein the feeding unit comprises a picosecond laser and one or more amplifiers, wherein the microstructured optical fiber is a silica fiber wherein at least a part of the core being of silica or doped silica, and including a core including core material and a cladding surrounding the core, and at least the core material is loaded with deuterium to have an OD absorption peak around 1870 nm, wherein the feeding unit is spliced to the microstructured optical fiber. | 2016-03-24 |
20160085138 | ELECTRIC CONTACT DEVICE, LENS UNIT, AND IMAGING DEVICE - An electric contact device includes a flexible printed circuit board on which a conductive pattern is formed, a contact member, a base, a coil spring, a support member, and a guide. The contact member comes into direct contact with the flexible printed circuit board and is electrically connected to the conductive pattern. The base includes a hole that holds the contact member so as to allow the contact member to be displaced between a protruding position where the contact member protrudes and a retracted position. The coil spring allows the flexible printed circuit board to come into contact with the contact member when one end thereof biases the flexible printed circuit board. The support member supports the other end of the coil spring. The guide is formed by a guide groove of the base and a guide groove of the support member and guides the extension and contraction of the coil spring. | 2016-03-24 |
20160085139 | SELF-PHOTOGRAPHING MOUNT DEVICE - A self-photographing mount device for holding a camera equipped user device at a distance from a user, comprising: a mounting structure having at least two corner mounting elements for mounting a camera equipped user device in parallel to a mounting plane; an extendable shaft having a handle at a proximal end thereof; and a hinge mounted on one of the at least two corner mounting elements to allow pivotal rotation of the extendable shaft from a folded position to an open position; when in the folded position, the extendable shaft is adjacent to the mounting plane and parallel to a diagonal of a back panel of the camera equipped user device; and when in the open position, the extendible shaft forms a wide angle with the mounting plane. | 2016-03-24 |
20160085140 | PROJECTOR - A projector including an outer casing, a projection lens and a flexible sealing element is provided. The casing has a first opening. The projection lens is disposed in the casing and has a focusing portion, where the focusing portion is aligned to the first opening. The flexible sealing element is connected to a periphery of the first opening to seal the first opening. The focusing portion is connected to the flexible sealing element. When an external force is exerted to the flexible sealing element, the flexible sealing element is deformed and drives the focusing portion to move, so as to focus the projection lens. | 2016-03-24 |
20160085141 | LIGHT-EMITTING DEVICE AND RELATED PROJECTION SYSTEM - A light-emitting device and a related projection system. Light-emitting devices ( | 2016-03-24 |
20160085142 | PROJECTION IMAGE DISPLAY DEVICE - A projection image display device includes a rod lens of rectangular cross section, into which white light from a light source enters, and exits as diffused light of uniform illumination intensity. The rod lens is provided with: only a single pair of rods which are formed by splitting the rod lens along the optical axis so as to bifurcate it along long sides of the rectangular cross section, and which have a thin filmed formed on a portion at the periphery of the mutually opposed surfaces thereof; and with a cover part that covers the outside periphery of the pair of rods, for retaining the pair of rods in such a way that the rods are opposed a slight distance apart due to the thin film formed on the mutually opposed surfaces, and that has openings formed at the light entry side and the light exit side of the rod lens. | 2016-03-24 |
20160085143 | LIGHT-EMITTING DEVICE AND RELATED LIGHT SOURCE SYSTEM - A light-emitting device ( | 2016-03-24 |
20160085144 | EXTREME ULTRAVIOLET (EUV) POD HAVING MARKS - The present invention relates to an EUV pod having marks, which comprises a mask pod and one or more mark disposed on the mask pod. One or more sensor of a processing machine is used for detecting the one or more mark. By including the one or more mark, the surface roughness of one or more region of the mask pod detectable by the one or more sensor can be altered. The one or more sensor emits light to the mask pod, which reflects the light to the one or more sensor. The one or more sensor receives the reflection light from the mask pod and judges if the voltage generated by the reflection light falls within the reflection ranges of the mark. Thereby, whether the one or more sensor corresponds to the one or more make can be confirmed. | 2016-03-24 |
20160085145 | METHOD FOR PRODUCING A BLANK OF FLUORINE-DOPED AND TITANIUM-DOPED GLASS HAVING A HIGH SILICIC-ACID CONTENT AND A BLANK PRODUCED ACCORDING TO THE METHOD - A method for producing a silica glass blank co-doped with titanium and fluorine for use in EUV lithography includes (a) producing a TiO | 2016-03-24 |
20160085146 | OPTICAL PATTERN TRANSFER MASK AND METHOD OF FABRICATING THE SAME - An optical pattern transfer mask includes a light transmissive substrate, a reflection layer pattern on a plurality of first regions of the light transmissive substrate, a light absorbing layer on the light transmissive substrate and the reflection layer pattern, and a bank layer pattern on the light absorbing layer corresponding to the plurality of first regions of the light transmissive substrate, the bank layer pattern being vertically aligned with the reflection layer pattern. The bank layer pattern includes a Diels-Alder polymer that is polymerizable and depolymerizable by a reversible Diels-Alder reaction. | 2016-03-24 |
20160085147 | PELLICLE FRAME AND A PELLICLE - A pellicle is proposed in which the frame is formed with an external horizontal slit for the purpose of receiving a pressing means, which can urge the pellicle to be adhered to a photomask, in which the slit forms a vertically protruding part of a thickness of 5-30% of the width of a pellicle frame main body and a horizontally protruding part of a thickness of 0.3-1 mm; also the method of adhering the pellicle to the photomask is proposed. | 2016-03-24 |
20160085148 | SULFONIC ACID DERIVATIVE COMPOUNDS AS PHOTOACID GENERATORS IN RESIST APPLICATIONS - Novel photoacid generator compounds are provided. Photoresist compositions that include the novel photoacid generator compounds are also provided. The invention further provides methods of making and using the photoacid generator compounds and photoresist compositions disclosed herein. The compounds and compositions are useful as photoactive components in chemically amplified resist compositions for various microfabrication applications. | 2016-03-24 |
20160085149 | RESIST COMPOSITION AND PATTERNING PROCESS - A negative pattern is formed by coating a resist composition comprising a polymer comprising recurring units having a carboxyl and/or hydroxyl group optionally substituted with an acid labile group, an oxirane or oxetane compound having a hydrophilic group, and an acid generator onto a substrate, prebaking, exposing, baking, and developing in an organic solvent so that the unexposed region of resist film is dissolved away and the exposed region of resist film is not dissolved. The resist composition exhibits a high sensitivity and high dissolution contrast during organic solvent development and forms a fine hole or trench pattern via positive/negative reversal. | 2016-03-24 |
20160085150 | PHOTORESIST COMPOSITION AND METHOD OF MANUFACTURING CIRCUIT PATTERN USING THE SAME - A photoresist composition includes an alkali soluble resin, a photosensitive compound, a first solvent having a boiling point of less than 200° C., and a second solvent having a boiling point of equal to or greater than 200° C. | 2016-03-24 |
20160085151 | PHOTOSENSITIVE EPOXY RESIN COMPOSITION, CURABLE FILM FOR FORMATION OF OPTICAL WAVEGUIDE CORE LAYER, AND OPTICAL WAVEGUIDE AND OPTICAL/ELECTRICAL TRANSMISSION HYBRID FLEXIBLE PRINTED WIRING BOARD PRODUCED BY USING THE PHOTOSENSITIVE EPOXY - The present invention provides a photosensitive epoxy resin composition which contains: (A) a cresol novolak polyfunctional epoxy resin; (B) a liquid epoxy resin having a fluorene skeleton in its main chain; and (C) a photoacid generator; wherein the components (A) and (B) are present in a mixing weight ratio of (A)/(B)=40/60 to 60/40. Where the inventive photosensitive epoxy resin composition is used as an optical waveguide forming material, particularly as an optical waveguide core layer forming material for formation of a core layer, the optical waveguide core layer can be formed as having excellent reflow resistance and a lower loss through a coating process and a roll-to-roll process without altering the conventional production process. | 2016-03-24 |
20160085152 | COMPOSITION FOR FILM FORMATION, RESIST UNDERLAYER FILM AND FORMING METHOD THEREOF, PATTERN-FORMING METHOD AND COMPOUND - A composition for film formation includes a compound represented by formula (1) and a solvent. In the formula (1), R | 2016-03-24 |
20160085153 | METHODS OF FORMING PHOTONIC DEVICE STRUCTURES, AND RELATED METHODS OF FORMING ELECTRONIC DEVICES - A method of forming a photonic device structure comprises forming a photoresist over a photonic material over a substrate. The photoresist is exposed to radiation through a gray-tone mask to form at least one photoexposed region and at least one non-photoexposed region of the photoresist. The at least one photoexposed region of the photoresist or the at least one non-photoexposed region of the photoresist is removed to form photoresist features. The photoresist features and unprotected portions of the photonic material are removed to form photonic features. Other methods of forming a photonic device structure, and a method of forming an electronic device are also described. | 2016-03-24 |
20160085154 | RESIST PATTERN FORMING METHOD, COATING AND DEVELOPING APPARATUS AND STORAGE MEDIUM - This resist pattern forming method comprises: a step for coating a substrate with a chemically amplified resist; a subsequent step for forming a latent image of a pattern by exposing the resist film on the substrate; a subsequent step for irradiating the exposed resist film selectively with infrared light from a first heating source having wavelengths 2.0-6.0 μm; a subsequent step for heating the substrate by means of a second heating source that is different from the first heating source for the purpose of diffusing an acid that is produced in the resist film by exposure; and a subsequent step for forming a pattern of the resist film by supplying a developer liquid to the substrate. Consequently, roughening of sidewalls of the resist pattern can be suppressed. | 2016-03-24 |
20160085155 | LITHOGRAPHY METROLOGY METHOD FOR DETERMINING BEST FOCUS AND BEST DOSE AND LITHOGRAPHY MONITORING METHOD USING THE SAME - A lithography metrology method is provided. Focus sensitivity data and dose sensitivity data of sample patterns to be formed on a substrate are acquired. At least one focus pattern selected in descending order of focus sensitivity from among the acquired focus sensitivity data of the sample patterns is determined. At least one low-sensitivity focus pattern in ascending order of the focus sensitivity from among the acquired dose sensitivity data of the sample patterns is selected, and at least one dose pattern selected in descending order of dose sensitivity from among the at least one low-sensitivity focus pattern is determined. A split substrate having a plurality of chip regions is prepared. A plurality of focus split patterns having a shape corresponding to the at least one focus pattern and a plurality of dose split patterns having a shape corresponding to the at least one dose pattern in the plurality of chip regions are formed. A best focus and a best dose from the plurality of focus split patterns and the plurality of dose split patterns are determined. | 2016-03-24 |
20160085156 | Maskless digital lithography systems and methods with image motion compensation - Maskless digital lithography systems and methods with image motion compensation are disclosed. The systems include an illuminator, an image transducer and a scanning device, wherein the transducer can be upstream or downstream from the scanning device. The illuminator provides illumination light that is modulated by the image transducer. The scanning device, illuminator and image transducer are operated in synchrony so that an image formed in a photoresist layer on a moving substrate forms a photoresist pattern that is not substantially smeared. | 2016-03-24 |
20160085157 | PROCESSING LIQUID AND PROCESSING METHOD FOR LITHOGRAPHIC PRINTING PLATE PRECURSOR - Disclosed are a processing liquid and a processing method that can favorably perform plate inspection of an on-press development-type lithographic printing plate precursor and image quality control, by using a processing liquid of a lithographic printing plate precursor having an image recording layer formable of an image by removing an unexposed region with at least one of printing ink and dampening water, the processing liquid containing a basic coloring dye expressed by General Formula (I) below and an anionic surfactant having an aromatic ring: | 2016-03-24 |
20160085158 | ILLUMINATION OPTICAL DEVICE, EXPOSURE APPARATUS, AND METHOD OF MANUFACTURING ARTICLE - An illumination optical device for illuminating a plane to be illuminated using light from a light source, includes: an optical integrator configured to cause an optical intensity distribution to be uniform on an emission end surface by reflecting light incident from an incident end surface in an inside surface a plurality of times; and a light flux forming unit configured to convert a light flux from a focal position where a condensing mirror condenses light from the light source at a first angle with respect to an optical axis directed from the light source to the plane to be illuminated to a light flux to be incident on the incident end surface of the optical integrator at a second angle greater than the first angle with respect to the optical axis, wherein the plane to be illuminated is illuminated with light from the optical integrator. | 2016-03-24 |
20160085159 | ENVIRONMENTAL SYSTEM INCLUDING VACUUM SCAVENGE FOR AN IMMERSION LITHOGRAPHY APPARATUS - A liquid immersion lithography apparatus includes an optical assembly having a last optical element, a first outlet facing downward, via which an immersion liquid is released, a first inlet via which the immersion liquid is drawn, and a containment member arranged to surround a last portion of the optical assembly. The containment member has (i) a second inlet facing downward, which is arranged radially-outwardly from the first outlet with respect to a space under the last optical element and via which fluid is removed from a gap formed under the containment member, and (ii) a second outlet facing downward, via which gas is supplied to the gap formed under the containment member, the second outlet being arranged radially-outwardly from the second inlet with respect to the space. | 2016-03-24 |
20160085160 | ENVIRONMENTAL SYSTEM INCLUDING A TRANSPORT REGION FOR AN IMMERSION LITHOGRAPHY APPARATUS - An immersion lithography apparatus includes an optical assembly that projects a beam onto a substrate through an immersion liquid, a containment member surrounding a path of the beam, a stage holding the substrate, an isolator having a first actuator which limits vibrations of the optical assembly, and a support system having a second actuator to support the containment member and move it by the second actuator. The containment member includes a first supply opening via which water as the immersion liquid is released, a recovery opening via which the immersion liquid is recovered from a gap between the containment member and the substrate and/or the stage, and a second supply opening via which the water is released to the gap between the containment member and the substrate and/or the stage, the second supply opening being provided radially inward of the recovery opening. | 2016-03-24 |
20160085161 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - A substrate table of an immersion lithographic apparatus is disclosed which comprises a barrier configured to collect liquid. The barrier surrounds the substrate and is spaced apart from the substrate. In this way any liquid which is spilt from the liquid supply system can be collected to reduce the risk of contamination of delicate components of the lithographic projection apparatus. | 2016-03-24 |