Class / Patent application number | Description | Number of patent applications / Date published |
430321000 | Optical device | 78 |
20080199815 | Plasma display panel and method for fabricating the same - A plasma display panel in which projections are formed in grooves between partitions and phosphor layers are provided on the projections so as to increase the area where phosphor adheres and thereby to increase the luminance. A couple of substrates are opposed to each other to form a discharge space. Band-like partitions partitioning the discharge space are arranged on the back or front substrate. Wall-like projections lower than the partitions and high enough to increase the area where phosphor layers are formed are provided in the region where the discharge space is formed in the long grooves between the partitions or around the discharge space. Phosphor layers are formed in the grooves between the partitions including the wall-like projections. A method for producing such a plasma display panel is also disclosed. | 08-21-2008 |
20080206682 | Fabrication method of micro-lens and fabrication method of master for micro-lens - A method of fabricating a micro lens, the method including: forming a photo-sensitive film on a substrate; placing a photo mask at a predetermined distance from a top of the photo-sensitive film; exposing the photo-sensitive film by varying an area of exposure of the photo-sensitive film so as to selectively expose three-dimensional structures of the photo-sensitive film corresponding to desired micro lenses; and developing the photo-sensitive film such that the exposed three-dimensional structures remain. Also, there is provided a method of fabricating a master for a micro lens, in which a master material is applied on the photo-sensitive film with the three-dimensional structures to form a master having the three-dimensional structures transferred thereonto. | 08-28-2008 |
20080220378 | Ferrule for optical wave guide - An apparatus includes an optical wave guide and a ferrule. The optical wave guide has a prespecified horizontal-positioning surface and a prespecified vertical-positioning surface. The ferrule is to precisely couple with the optical wave guide. The ferrule defines a first datum plane mating with the prespecified vertical-positioning surface of the optical wave guide to precisely mechanically vertically position the optical wave guide within the ferrule. The ferrule defines a second datum plane mating with the prespecified horizontal-positioning surface of the optical wave guide to precisely mechanically horizontally position the optical wave guide within the ferrule. | 09-11-2008 |
20080233519 | METHODS FOR FABRICATING OPTICAL MICROSTRUCTURES BY IMAGING A RADIATION SENSITIVE LAYER SANDWICHED BETWEEN OUTER LAYERS - Microstructures are fabricated by imaging a microstructure master blank that includes a radiation sensitive layer sandwiched between a pair of outer layers, on an imaging platform, to define the microstructures in the radiation sensitive layer. At least one of the outer layers is then removed. The microstructures that were defined in the radiation sensitive layer are developed. The radiation sensitive layer sandwiched between the pair of outer layers may be fabricated as webs, to provide microstructure master blanks. | 09-25-2008 |
20080233520 | Method For Producing Multi-Layer Optical Disk - A method for producing a multilayer optical disk including a plurality of information storage layers is disclosed. The method includes a mastering step of preparing a plurality of metal dies, a replicating step of producing a base plate onto which a desired pattern is transferred using the plurality of metal dies and forming recordable/reproducible information storage layers. The desired pattern includes a wobbling tract pattern that is formed by combining a plurality of wobble patterns each having the same fundamental frequency. The mastering step produces the plurality of metal dies for the plurality of information storage layers having a shape that specifies a track groove whose shape factor differs from one information storage layer to another. | 09-25-2008 |
20080254393 | Phosphor coating process for light emitting diode - A phosphor coating process for a light-emitting device is described. A light-emitting diode chip is bonded on a substrate. A light-sensitive layer is formed over the light-emitting diode and the substrate. The light-sensitive layer is patterned by a photolithography process to expose an area of the light-emitting diode chip, on which desires a phosphor coating. A phosphor-adhesive material is filled on the area of the light-emitting diode chip. | 10-16-2008 |
20080268378 | METHOD FOR MANUFACTURING LENS FORMING MASTER AND METHOD FOR MANUFACTURING THIN FILM TRANSISTOR SUBSTRATE USING THE SAME - A method for manufacturing a lens forming master includes coating an organic insulation material on a substrate to form an organic insulation layer, removing a portion of the organic insulation layer with a laser which is irradiated through a first mask to form a lens shape on a surface of the organic insulation layer, and removing portions of the organic insulation layer with a laser irradiated through a second mask to form a contact hole and a bank area in the organic insulation layer. | 10-30-2008 |
20080292994 | TRANSFER METHOD, TRANSFER APPARATUS, AND METHOD OF MANUFACTURING ORGANIC LIGHT EMITTING ELEMENT - The present invention provides a transfer method and a transfer apparatus capable of making the shape and quality of a transferred layer uniform and a method of manufacturing an organic light emitting element. A transfer method includes a step of disposing a transfer substrate and an acceptor substrate so as to face each other, a transfer layer being provided on the transfer substrate, and a plurality of areas being arranged in the acceptor substrate, and transferring the transfer layer to the plurality of areas by emitting a radiation ray from the transfer substrate side. The radiation ray is shaped in a band shape, and a short-axis width in a center portion in a long-axis direction of the radiation ray is set to be larger than that in an end portion. | 11-27-2008 |
20080299498 | METHOD FOR MANUFACTURING MICRO-LENSES OF IMAGE SENSORS - A method for manufacturing micro-lenses of image sensors includes providing a semiconductor substrate having at least a planarization layer, performing a first photolithography process to form a first set of micro-lens blocks on the planarization layer, performing a first baking process to form a first set of micro-lenses, performing a first surface treatment to harden surfaces of the first set of micro-lenses, performing a second photolithography to form a second set of micro-lens blocks on the planarization layer, and performing a second baking process to form a second set of micro-lenses. | 12-04-2008 |
20080305438 | Method for fabricating polymer ridged waveguides by using tilted immersion lithography - This invention is a method for fabricating polymer ridged waveguides by using tilted immersion lithography. It includes the steps of: 1. preparing step; 2. calculating step; 3. first tilted immersion lithography step; 4. rotating 180-degree step; 5. second tilted immersion lithography step; and 6. finishing step. By these two tilted immersion lithography steps as well as the rotating 180-degree step between them, the UV light refracts and makes the photoresist forming a 45-degree ridged waveguide. This fabricating method is simple and stable. It can reduce the fabricating time and cost. Also, it is suitable for mass production and it has wide-ranged applications. | 12-11-2008 |
20080305439 | MANUFACTURING METHOD OF OPTICAL WAVEGUIDE - An optical waveguide production method for producing an optical waveguide comprising the steps of: forming an under-cladding layer and an alignment mark from the same material on a substrate; forming a thin metal film on the alignment mark; forming a first transparent photosensitive resin layer on the resultant substrate to cover the under-cladding layer and the thin metal film; positioning an exposure mask with reference to the thin metal film formed on the alignment mark; and selectively exposing a predetermined portion of the first photosensitive resin layer on the under-cladding layer via the exposure mask to form a core defined by the exposed portion of the first photosensitive resin layer. | 12-11-2008 |
20090053655 | Methods for forming patterned structures - In general, in a first aspect, the invention features a method that includes forming a first layer comprising a first material over a surface of a second layer, wherein forming the first layer includes sequentially forming a plurality of monolayers of the second material over the surface of the second layer, the second layer comprises a plurality of rows of a second material extending along a first direction and spaced from one another in a second direction orthogonal to the first direction, and the first layer conforms to the surface of the second layer. The method further includes removing portions of the first layer to produce a plurality of rows of the first material extending along the first direction and spaced from one another in the second direction and removing portions of a third layer comprising a third material, where the portions correspond to intervals between the second plurality of rows so that removing the portions forms a plurality of rows of the third material extending along the first direction and spaced apart from one another. The first and second materials are different. | 02-26-2009 |
20090075215 | Photoplate for oled deposition screen - A photoplate for manufacturing a deposition mask that is used to form a matrix of pixel areas used in a display panel. The photoplate comprises a layer of material such as quartz, on which a matrix of pixel etching areas is defined. The pixel etching areas are configured to form pixel areas having a specified separation from each other in a vertical direction. The pixel etching areas on the photoplate include an outer periphery having a generally rectangular shape with elongated corners. | 03-19-2009 |
20090087794 | METHOD FOR MANUFACTURING DIFFRACTIVE OPTICAL ELEMENT - Object To provide a diffractive optical element manufacturing method through which a high-precision diffractive optical element is formed to assure an improvement in the diffraction efficiency. | 04-02-2009 |
20090123876 | Optical disc and method of producing the same - An optical disk has a first and a second intermediate disk structure. The first structure includes at least a first transparent substrate, a first recording layer, and a first reflective layer. The first substrate has a first surface and a second surface. The first surface is a beam incidence surface for a laser beam in recording or reproduction of data. The second surface has a first concave section and a first convex section formed thereon. The first recording layer and the first reflective layer are stack in order on the second surface via the first concave and convex sections. The second structure includes at least a second substrate, a second reflective layer, and a second recording layer. The second substrate has a second concave section and a second convex section formed thereon. The second reflective layer and the second recording layer are stack in order on the second substrate via the second concave and convex sections. The first and second structures are bonded to each other so that the first reflective layer faces the second recording layer, the first concave section becomes closer to the beam incidence surface than the first convex section does, and the second concave section becomes closer to the beam incidence surface than the second convex section does. The first recording layer has a first data-storage area on the first concave section. The second recording layer has a second data-storage area on the second concave section. Each of the first and second convex sections has at least one pre-pit formed thereon. The pre-pit carries auxiliary information related to the data to be recorded or reproduced. | 05-14-2009 |
20090142708 | Optical fiber illuminator, method of fabricating optical fiber illuminator, and optical recording head and optical recording and reading apparatus having the optical fiber illuminator - Provided is an optical fiber illuminator used for recording and reading high density optical information according to a near field recording (NFR) scheme, a method of fabricating the optical fiber illuminator, and an optical recording head and recording apparatus having the optical fiber illuminator. The optical fiber illuminator includes: an optical fiber having a core upon which light is incident and a clad that surrounds the core, one end of the optical fiber having a mirror formed in an inclined manner; and a lens formed on an outer surface of the optical fiber for focusing light reflected by the mirror. The optical fiber illuminator has an improved optical arrangement for optical illumination and detection, it is easy to manufacture, its optical input is easy to control, and it can be readily provided in an array form. When an array type optical recording and reading apparatus having an optical recording head and multiple aperture probes adopts the optical fiber illuminator, the resulting simple arrangement and compact size enables size reduction of the overall apparatus, a signal to noise ratio is high, and high density optical information can be recorded and reproduced at an extremely high rate. | 06-04-2009 |
20090142709 | IMAGER WITH TUNED COLOR FILTER - An optimized color filter array is formed in, above or below one or more damascene layers. The color filter array includes filter regions which are configured to optimize the combined optical properties of the layers of the device to maximize the intensity of the particular wavelength of light incident to a respective underlying photodiode. | 06-04-2009 |
20090155730 | METHOD FOR MANUFACTURING STORAGE MEDIUM AND APPARATUS FOR MANUFACTURING INFORMATION STORAGE MASTER DISC - A method for manufacturing an information storage medium in which information is stored as a concave-convex pattern includes forming an inorganic-resist master disc by depositing on a substrate an inorganic resist layer reactive to thermal reaction associated with laser beam irradiation, recording on the inorganic-resist master disc by differentiating depths of thermal reaction portions in the inorganic resist layer by inputting information to be stored in the information storage medium and varying power of the laser beam striking the inorganic-resist master disc over at least three levels according to the input information, forming an information storage master disc having a concave-convex pattern in the inorganic resist layer by developing the recorded inorganic-resist master disc, forming a stamper to which the concave-convex pattern formed on the inorganic resist layer has been transferred on the basis of the information storage master disc, and forming the information storage medium using the stamper. | 06-18-2009 |
20090170038 | METHOD FOR PRODUCING FINE STRUCTURE - A method for producing a fine structure includes: (a) forming a photosensitive film to cover a plurality of first convex portions formed in at least one surface of a substrate; (b) arranging liquid to cover the photosensitive film on the at least one surface of the substrate; (c) arranging a transparent parallel plate such that the parallel plate opposes the substrate via the liquid; (d) generating interference field by a laser beam to irradiate the interference field onto the photosensitive film via the parallel plate and the liquid; (e) removing the liquid and the parallel plate to develop the photosensitive film so as to form a photosensitive film pattern; and (f) etching the substrate using a mask of the photosensitive film pattern to form a plurality of fine convex portions smaller than the first convex portions on the at least one surface of the substrate. In the method, the liquid arranged at step (b) has a refractive index larger than 1 and equal to or smaller than a refractive index of the photosensitive film. | 07-02-2009 |
20090186304 | GRAVITY AND PRESSURE ENHANCED REFLOW PROCESS TO FORM LENS STRUCTURES - A lens structure and methods of forming the lens structure are disclosed. The method includes attaching a lens block to a substrate such that gravitational force acts to push the lens block against the substrate. The substrate is positioned such that gravitational force acts to pull the lens block from the substrate. The lens block is then heated such that gravity and surface tension of the block forms the lens structure. | 07-23-2009 |
20090186305 | MANUFACTURING METHOD OF OPTICAL WAVEGUIDE DEVICE - A method of manufacturing an optical waveguide device which is capable of connecting light-receiving and light-emitting elements mounted on a board and an optical waveguide to each other with high accuracy. Insulation layers are formed on a first surface of a metal substrate. A first photomask is positioned by using an alignment mark formed in the metal substrate, and exposure to light and development are performed to form conductor layers. A second photomask is positioned on a second surface of the metal substrate opposite from the first surface by similarly using the above-mentioned alignment mark, and exposure to light and development are performed to form an opening for optical coupling between a light-emitting element and an optical waveguide film. The light-emitting element is mounted on pads of the conductor layers, and the optical waveguide film is fixed to the metal substrate using the optical coupling opening. | 07-23-2009 |
20090191489 | Pattern generator - The present invention relates to an apparatus for creating a pattern on a workpiece sensitive to radiation, such as a photomask a display panel or a microoptical device. The apparatus may include a source for emitting light flashes, a spatial modulator having modulating elements (pixels), adapted to being illuminated by the radiation, and a projection system creating an image of the modulator on the workpiece. It may further include an electronic data processing and delivery system receiving a digital description of the pattern to be written, converting the pattern to modulator signals, and feeding the signals to the modulator. An electronic control system may be provided to control a trigger signal to compensate for flash-to-flash time jitter in the light source. | 07-30-2009 |
20090197210 | Method for preparing photonic crystal slab waveguides - A method for preparing a photonic crystal slab waveguides is disclosed, wherein the photonic crystal slab waveguides are prepared by combining near-field phase-shifting contact lithography (NFPSCL) with interference lithography (IL). Conventional methods used for preparing the photonic crystal slab waveguides, such as electron beam lithography or direct laser writing, are time consuming. In contrast, the present method allows rapid production of many photonic crystal slab waveguides over a large area composed of microstructures. | 08-06-2009 |
20090208876 | Long-length fiber Bragg creating sequential UV writing by probing phase mask - A new fiber position monitoring method for sequential FBG UV-writing processes with a reference phase mask as the phase reference is proposed. Also, the new method by probing a reference phase mask can overcome the optical alignment difficulties in using reference fiber as well as provide more signal power for achieving better monitoring accuracy. Moreover, the present invention provides a method for sequentially joining a plurality of grating sections into a fiber grating longer than a phase mask. | 08-20-2009 |
20090208877 | METHODS OF MAKING OPTICAL FIBER GRATINGS - Optical fibers and optical fiber lasers including gratings and methods of writing gratings into fibers. A method can comprise providing a photosensitive optical fiber having a region having an original refractive index (RI) profile along the elongate direction of the fiber; exposing the optical fiber to actinic radiation to alter the original RI profile to form along a length of the fiber a grating having a RI profile including alternating higher RI and lower RI sections; and wherein the maximum RI difference between a RI of a higher RI section and a RI of an adjacent lower RI section of the grating RI profile is no greater than 85% of the difference between the average index of the grating RI profile and the original RI profile. | 08-20-2009 |
20090233241 | Method of Optical Fabrication of Three-Dimensional Polymeric Structures With Out of Plane Profile Control - A method of optical fabrication comprises coating a substrate with a photocuring material, controlling the application of light to the photocuring material so as to control the intensity and pattern of the light both in-plane and out of plane, and developing the photocuring material. | 09-17-2009 |
20090246712 | METHOD OF PRODUCING MULTILAYER OPTICAL RECORDING MEDIUM, STAMPER FOR PRODUCING MULTILAYER OPTICAL RECORDING MEDIUM, AND METHOD THEREFOR - Provided is a stamper for producing a multilayer optical recording medium, which can be produced in simple steps and can be repeatedly used. Particularly, provided is a stamper for producing a multilayer optical recording medium, including: a translucent substrate; and a translucent inorganic resist layer in which a pit or a guide groove is formed on the substrate. Further, the stamper has an absorptivity of 10% or more with respect to exposure light which is used in patterning the inorganic resist layer, and has a transmittance of 19% or more with respect to an ultraviolet ray which is used when the stamper is used. Furthermore, the inorganic resist layer contains a tungsten oxide or a molybdenum oxide having a composition in which oxygen is lost from a stoichiometric composition. | 10-01-2009 |
20090286187 | MANUFACTURING METHOD OF OPTICAL WAVEGUIDE DEVICE - To provide a manufacturing method of an optical waveguide device which is capable of suppressing the surface roughening of core side surfaces of an optical waveguide when the optical waveguide is formed on a surface of a metal substrate. An under cladding layer | 11-19-2009 |
20090305170 | OPTICAL WAVEGUIDE MANUFACTURING METHOD - An optical waveguide manufacturing method which obviates a developing step and stably provides greater differences in refractive index between a core and cladding layers. A core formation photosensitive resin layer is formed on a surface of an under-cladding layer, and then exposed in a predetermined pattern. A core is formed which is defined by an exposed portion of the core formation photosensitive resin layer. Surfaces of the exposed portion and an unexposed portion of the core formation photosensitive resin layer are covered with an over-cladding layer formation photosensitive resin layer. The two photosensitive resin layers are heated, whereby a resin of the unexposed portion of the core formation photosensitive resin layer and a resin of the over-cladding layer formation photosensitive resin layer are melt-mixed together to form a mixture layer. Then, the mixture layer is exposed, whereby a third cladding layer is formed defined by the exposed mixture layer. | 12-10-2009 |
20090311630 | PROCESS FOR PRODUCING OPTICAL COMPONENT - The present invention relates to a process for producing an optical component, the process including: disposing a transparent stamp tool on a substrate or an imaging element through a transparent ultraviolet-curable resin composition layer; and irradiating the resin composition layer with an ultraviolet ray through the transparent stamp tool to thereby cure the resin composition layer, in which a resin composition contained in the resin composition layer contains a thermosetting resin as a main component and a photo-acid generator, and the ultraviolet ray passing through the transparent stamp tool is an ultraviolet ray having a wavelength of 320 nm or more. | 12-17-2009 |
20090325107 | Thermal embossing of resist reflowed lenses to make aspheric lens master wafer - Methods of forming a lens master wafer having aspheric lens shapes. In one embodiment, a substrate is coated with a polymer material. Isolated sections are formed in the polymer material. The isolated sections are reflowed. The reflowed sections are formed into aspheric lens shapes using a lens stamp. | 12-31-2009 |
20100009296 | MATERIAL FOR FORMING CONDUCTIVE ANTIREFLECTION FILM, METHOD FOR FORMING CONDUCTIVE ANTIREFLECTION FILM, METHOD FOR FORMING RESIST PATTERN, SEMICONDUCTOR DEVICE, AND MAGNETIC HEAD - A material for forming a conductive antireflection film contains: a base resin having conductivity; a crosslinking agent; a thermal acid generator; and a solvent. | 01-14-2010 |
20100040986 | PROCESS FOR MANUFACTURING LIGHT GUIDE - The present invention relates to a process for producing an optical waveguide, including the steps of applying a cladding layer-forming resin onto a substrate and curing the resin to form a lower cladding layer; laminating a core layer-forming resin film on the lower cladding layer to form a core layer; subjecting the core layer to exposure to light and development to form a core pattern; and applying a cladding layer-forming resin over the core pattern to embed the core pattern therebeneath, and curing the resin to form an upper cladding layer, wherein the step of forming the core layer includes the steps of (1) allowing the core layer-forming resin film to be temporarily attached onto the lower cladding layer using a roll laminator, and (2) thermocompression-bonding the temporarily attached core layer-forming resin film onto the lower cladding layer under a reduced pressure. There is provided the process for producing an optical waveguide having a uniform core with a good productivity. | 02-18-2010 |
20100062377 | METHOD FOR MANUFACTURING COLOR FILTER AND COLOR FILTER MANUFACTURED BY USING THE SAME - The present invention relates to a method for manufacturing a color filter and a color filter manufactured by using the same. More particularly, the present invention pertains to a method for manufacturing a color filter, which includes performing plasma treatment of a black matrix (BM) pattern formed on a substrate to increase a difference in ink repellency of the black matrix pattern and a pixel unit, and a color filter manufactured by using the same. When the production method of the present invention is used, it is possible to provide the color filter in which color mixing does not occur in a pixel unit or between pixel units during discharging of ink by using an inkjet printing process, discoloration due to unfilling does not occur, a surface is uniform, and there is an insignificant step in the pixel unit or between the pixel units. | 03-11-2010 |
20100062378 | OPTICAL WAVEGUIDES AND METHODS THEREOF - Embodiments in accordance with the present invention provide waveguide structures and methods of forming such structures where core and laterally adjacent cladding regions are defined. Some embodiments of the present invention provide waveguide structures where core regions are collectively surrounded by laterally adjacent cladding regions and cladding layers and methods of forming such structures. | 03-11-2010 |
20100068653 | MANUFACTURING METHOD OF OPTICAL WAVEGUIDE DEVICE - A manufacturing method of an optical waveguide device which is capable of suppressing the surface roughening of core side surfaces of an optical waveguide when the optical waveguide is formed on a roughened surface of a substrate. An under cladding layer is formed on a roughened surface of a substrate made of a material that absorbs irradiation light, and then a photosensitive resin layer for the formation of cores is formed thereon. Irradiation light is directed toward this photosensitive resin layer to expose the photosensitive resin layer in a predetermined pattern to the irradiation light. When the irradiation light transmitted through the photosensitive resin layer for the formation of the cores and the under cladding layer reaches the surface of the substrate, the irradiation light is absorbed by the substrate, so that there is little irradiation light reflected from the surface of the substrate. | 03-18-2010 |
20100075262 | POST ARRAYS AND METHODS OF MAKING THE SAME - In general, in one aspect, the invention features a method that includes forming layer of a mask material on a surface of a first layer, patterning the layer of the mask material to obtain a mask feature, the mask feature having a surface comprising a depression, inducing mass transport of the mask material of the mask feature to obtain a modified mask feature, and transferring a profile of the modified mask feature into the first layer to form a first structure. In general, in another aspect, the invention features a method that includes forming layer of a mask material on a surface of a first layer, patterning the layer of the mask material to obtain a mask feature, inducing mass transport of the mask material of the mask feature to obtain a modified mask feature, and transferring a profile of the modified mask feature into the first layer to form a first structure. The first layer is composed of an amorphous material and the first structure is a post having a base side-wall angle of in a range from about 60 degrees to about 80 degrees. | 03-25-2010 |
20100092892 | PHOTOPOLYMERIZED RESIN LAMINATE AND METHOD FOR MANUFACTURING BOARD HAVING BLACK MATRIX PATTERN - An object is to manufacture a substrate having a black matrix pattern with excellent ink repellency on the surface by an easy method. A fluorine-containing compound coated film in which 1 to 60 mm | 04-15-2010 |
20100092893 | METHOD OF MANUFACTURING OPTICAL WAVEGUIDE DEVICE - A method of manufacturing an optical waveguide device capable of suppressing the surface roughening of core side surfaces of an optical waveguide. Forming an under cladding layer on the front surface of a substrate; forming a photosensitive resin layer for core formation on a surface of the under cladding layer; wherein, in forming the cores, (A) irradiation light transmitted through the photosensitive resin layer, reaching the front surface of the substrate having an arithmetic mean roughness (Ra) in the range of 1 to 2 nm, or (B) irradiation light transmitted through the photosensitive resin layer and reflected from the bottom surface, where the front surface and back surface both have an arithmetic mean roughness (Ra) in the range of 1 to 2 nm. | 04-15-2010 |
20100112490 | Optical Diffusers, Photomasks and their Methods of Fabrication - A large mask with random apertures may be formed by forming a smaller mask (also called a cell mask) with a random pattern of transmissive apertures which is then repeatedly replicated to create the large mask. The random pattern may be created by perturbing the aperture locations by a small amount or the apertures may be randomly placed within the cell mask provided certain criteria are met. Alternatively, a large mask with a random pattern of transmissive apertures may be formed without using a cell mask. This large mask may be used to fabricate diffusers and other devices that do not suffer from the interference, diffraction and other optical effects common in devices having structures that are non-randomly patterned. | 05-06-2010 |
20100112491 | METHOD FOR MANUFACTURING OPTICAL DISC MASTER AND METHOD FOR MANUFACTURING OPTICAL DISC - A method for manufacturing an optical disc master using an existing exposure system, and a method for manufacturing an optical disc having higher recording capacity. The method for manufacturing an optical disc, using a master to produce the optical disc having an irregular pattern thereon, the master being produced by the steps of forming a resist layer composed of a resist material including an incomplete oxide of a transition metal such as W or Mo on a substrate, the oxygen content of the incomplete oxide being smaller than the oxygen content of the stoichiometric composition corresponding to a valence of the transition metal; selectively exposing the resist layer with laser according to a recording signal pattern using a light source with an irradiation power that is less than an irradiation threshold power at which exposure of the resist starts; and developing the resist layer to form the predetermined irregular pattern. | 05-06-2010 |
20100112492 | FABRICATION OF A HIGH FILL RATIO SILICON SPATIAL LIGHT MODULATOR - A method for forming an optical deflection device includes providing a semiconductor substrate comprising an upper surface region and a plurality of drive devices within one or more portions of the semiconductor substrate. The upper surface region includes one or more patterned structure regions and at least one open region to expose a portion of the upper surface region to form a resulting surface region. The method also includes forming a planarizing material overlying the resulting surface region to fill the at least one open region and cause formation of an upper planarized layer using the fill material. The method further includes forming a thickness of silicon material at a temperature of less than 300° C. to maintain a state of the planarizing material. | 05-06-2010 |
20100124723 | METHOD FOR THE PROTECTION OF EXTREME ULTRAVIOLET LITHOGRAPHY OPTICS - A coating for the protection of optical surfaces exposed to a high energy erosive plasma. A gas that can be decomposed by the high energy plasma, such as the xenon plasma used for extreme ultraviolet lithography (EUVL), is injected into the EUVL machine. The decomposition products coat the optical surfaces with a protective coating maintained at less than about 100 Å thick by periodic injections of the gas. Gases that can be used include hydrocarbon gases, particularly methane, PH | 05-20-2010 |
20100136489 | MANUFACTURING DEVICE AND MANUFACTURING METHOD FOR POLYMER WAVEGUIDE DEVICE - A manufacturing device and a manufacturing method for polymer waveguide devices are revealed. The manufacturing device includes a substrate coated with a photoresist polymer membrane and set on a work platform, a femtosecond laser emitting onto the photoresist polymer membrane, and a lens arranged between the femtosecond laser and the substrate. The polymer waveguide devices are obtained by the femtosecond laser emitting onto the photoresist polymer membrane. Without complicated manufacturing processes, the production efficiency of the polymer waveguide devices is increased. | 06-03-2010 |
20100178614 | METHOD FOR MANUFACTURING A LENS - In the present invention a mask ( | 07-15-2010 |
20100183986 | STAMPER PRODUCTION METHOD AND READ-ONLY OPTICAL DISC PRODUCTION METHOD - A stamper production method includes: a stamper forming step of producing, by electroplating processing using a matrix in which a pit string constituted of a concave pit is formed on an inorganic resist layer based on recording information, a stamper on which a convex pit corresponding to the concave pit is formed; and an etching step of carrying out etching processing on the stamper so that a reduction ratio of a pit height of a short pit becomes larger than that of a long pit regarding the convex pit of the stamper. | 07-22-2010 |
20100221668 | RESIN COMPOSITION FOR OPTICAL MATERIAL, RESIN FILM FOR OPTICAL MATERIAL, AND OPTICAL WAVEGUIDE - A resin composition for an optical material, which is excellent in heat resistance and transparency and is soluble in an aqueous alkali solution, a resin film for an optical material made of the resin composition, and an optical waveguide using the same are provided. The resin composition for an optical material includes: (A) an alkali-soluble (meth)acrylate polymer containing a maleimide skeleton in a main chain; (B) a polymerizable compound; and (C) a polymerization initiator. The resin film for an optical material is made of the resin composition for an optical material. The optical waveguide has a core part and/or a clad layer formed using the resin composition for an optical material or the resin film for an optical material. | 09-02-2010 |
20100233631 | RECESSED PORTION FORMING METHOD, METHOD FOR MANUFACTURING PIT-PROJECTION PRODUCT, METHOD FOR MANUFACTURING LIGHT EMITTING ELEMENT, AND METHOD FOR MANUFACTURING OPTICAL ELEMENT - A recessed portion forming method for forming a plurality of recessed portions in a thermally deformable heat mode recording material layer is provided, which method includes: a recessed portion forming step of applying condensed light emitted from an optical system including a light source, to the recording material layer to form the recessed portions; an inspection light illumination step of applying inspection light to the recessed portions during or after formation of the recessed portions in the recording material layer; a detection step of detecting a light quantity of the inspection light reflected or diffracted from the recessed portions; and an output regulation step of regulating an output of the light source based upon the light quantity so that the light quantity becomes a predetermined value. Methods for manufacturing a pit-projection product, a light emitting element, and an optical element, using this method are also provided. | 09-16-2010 |
20100248157 | METHOD FOR MANUFACTURING A REFLECTION PLATE - It is to suppress the interference of the reflected light easily and securely even in a highly fine liquid crystal display device. The reflection plate comprises recessed or protruded parts and a reflection film formed over the recessed or protruded parts. A unit shape of the recessed or protruded parts is a polygon, an arbitrary point other than a centroid of the polygon that constitutes the recessed or protrude part is placed at a position that meets with an orderly-mannered lattice point as an origin, and each of the unit-shape polygons is arranged at a position that is rotated randomly with respect to the origin. | 09-30-2010 |
20100255425 | Fabrication method of brightness enhancement film - A fabrication method of a brightness enhancement film (BEF) including the following steps is provided. A light transmissive substrate is provided and has a first surface and a second surface opposite to the first surface. Then, a plurality of first rod-shaped lenses are formed on the first surface. The rod-shaped lenses extend along a first direction and are arranged along a second direction. After that, a plurality of second stripe-shaped prisms are formed on the second surface. The stripe-shaped prisms extend along the second direction and are arranged along the first direction. Next, an electromagnetic wave beam is made to pass through the rod-shaped lenses, the light transmissive substrate and the stripe-shaped prisms in sequence. A first portion of each of the stripe-shaped prisms exposes and leaves a second portion of each of the stripe-shaped prisms unexposed. Then, the second portions of the stripe-shaped prisms are removed. | 10-07-2010 |
20100273109 | METHOD FOR PRODUCING OPTICAL PART - A method for producing an optical part includes an irradiation process for irradiating a radiation-sensitive polymerizable composition with a radiation. The radiation-sensitive polymerizable composition includes at least a polymerizable compound (a) and a polymerizable or non-polymerizable component (c). The irradiation process includes at least a first step of irradiating with a radiation only a first irradiation region that is a portion of the radiation-sensitive polymerizable composition and a second step of irradiating with a radiation only a second irradiation region that is a portion of the radiation-sensitive polymerizable composition and is different from the first irradiation region in at least one of size and position. When the component (c) is polymerizable, the polymerization rate of the component (c) is controlled to be lower than that of the polymerizable compound (a) in the first and the second steps. | 10-28-2010 |
20100316959 | METHODS FOR FORMING SHEETING WITH A COMPOSITE IMAGE THAT FLOATS AND A MASTER TOOLING - A sheeting and a method of forming a sheeting from a master tool are described where the sheeting has a composite image that floats above or below the sheeting. The method includes providing a first sheeting comprising a first array of microlenses and a photopolymerizable first material layer adjacent to the first array of microlenses. Another step is exposing the first sheeting to a radiation source to form a master tool comprising a plurality of polymerized first structured areas in the first material layer, wherein at least some of the first structured areas include a portion shape in common with at least some of the first structured areas and wherein each first structured area is associated with one of the first array of microlenses. Yet another step is replicating the plurality of first structured areas using a substance that conforms to the plurality of structured areas to form a second material layer having a plurality of replicated structured areas. | 12-16-2010 |
20110014575 | METHOD OF MANUFACTURING OPTICAL WAVEGUIDE DEVICE - An optical waveguide device is provided which is capable of reducing light propagation losses in the cores of an optical waveguide when the optical waveguide is formed on a surface of a substrate, regardless of the type of substrate. A photosensitive resin layer ( | 01-20-2011 |
20110027720 | Method and Device for Fabricating Volume Bragg Gratings - A system for recording multiple volume Bragg gratings (VBGs) in a photo thermo-refractive material is configured to implement a method which provides for irradiating the material by a coherent light through a phase mask. The system has a plurality of actuators operative to displace the light source, phase mask and material relative to one another so as to mass produce multiple units of the material each having one or more uniformly configured VBGs. | 02-03-2011 |
20110045412 | PIGMENT DISPERSION, COLORED CURABLE COMPOSITION, COLOR FILTER AND METHOD OF MANUFACTURING THE SAME - There are provide a pigment dispersion containing (A) a halogenated zinc phthalocyanine pigment, and (B) a copolymer of at least (b-1) a monomer having at least one group selected from an amino group and a nitrogen-containing heterocyclic group, (b-2) a monomer having a carboxyl group, and (b-3) a macromonomer having a weight-average molecular weight from 1,000 to 50,000, a colored curable composition containing the pigment dispersion, a color filter using the colored curable composition and a method for preparing the same. | 02-24-2011 |
20110053095 | MANUFACTURING METHOD OF PLANAR OPTICAL WAVEGUIDE DEVICE WITH GRATING STRUCTURE - A method for manufacturing a planar optical waveguide device including a core of which a top face is provided with a groove section filled with a groove section filler made of a low refractive index material having a refractive index lower than that of the core, the method including; a first high refractive index material layer forming step of forming a high refractive index material layer; a low refractive index material layer forming step of forming a low refractive index material layer made of the low refractive index material on the high refractive index material layer; a groove section filler forming step of forming the groove section filler by trimming both lateral portions of the low refractive index material layer; and a second high refractive index material layer forming step of forming a high refractive index material layer so as to fill the both sides of the lateral portions of the groove section filler. | 03-03-2011 |
20110117502 | METHOD FOR PRODUCING MULTI-LAYER OPTICAL DISK - A method for producing a multilayer optical disk including a plurality of information storage layers is disclosed. The method includes a mastering step of preparing a plurality of metal dies, a replicating step of producing a base plate onto which a desired pattern is transferred using the plurality of metal dies and forming recordable/reproducible information storage layers. The desired pattern includes a wobbling tract pattern that is formed by combining a plurality of wobble patterns each having the same fundamental frequency. The mastering step produces the plurality of metal dies for the plurality of information storage layers having a shape that specifies a track groove whose shape factor differs from one information storage layer to another. | 05-19-2011 |
20110136063 | METHOD TO FABRICATE A REDIRECTING MIRROR IN OPTICAL WAVEGUIDE DEVICES - A method of fabricating a turning mirror for an optical device includes the steps of depositing on a substrate, which defines a plane in which an optical signal propagates in a propagating direction, a photoresist layer sensitive to electrons and to UV radiation. The material in which the photoresist layer is formed, has a contrast not larger than 3. A first portion of the photoresist layer is exposed to an electron beam, wherein the electron dose of the electron beam exposure is varied within the first portion according to a selected pattern, and wherein the electron does to which a given region in the photoresist is exposed, depends on the resulting photoresist height in the given region after development. A second portion of the photoresist layer is exposed to UV radiation; the first and the second portions are overlapped at least in a third portion. The photoresist layer is developed so as to form in the third portion of the photoresist layer exposed to both electron beam and to UV radiation a first surface having an angle relative to the propagating direction. The substrate and the photoresist are etched so that a second angled surface is formed in the substrate in correspondence to the third portion. The second surface forms an angle with the propagating direction. | 06-09-2011 |
20110151383 | METHOD OF MANUFACTURING OPTICAL ELEMENT, AND OPTICAL ELEMENT - A manufacturing method of an optical element is provided, the optical element comprising: a shield part formed by a light shielding film formed and patterned on a substrate; a light transmission part formed by partially exposing a surface of the substrate; and a phase shifter part formed by partially etching the surface of the substrate, the method comprising the steps of: preparing an optical element blank with the light shielding film and a first resist film laminated on the substrate in this order; and forming a first resist pattern by applying drawing and development to the first resist film, covering a formation scheduled area of the shield part, and demarcating the formation scheduled area of the phase shifter part. | 06-23-2011 |
20110269075 | METHOD OF FABRICATING COLOR FILTER WITH FLEXIBLE SUBSTRATE - A method of fabricating a color filter includes steps of forming a transparent-matrix on a flexible and transparent substrate for dividing the substrate to a plurality of pixel regions; printing the a plurality of pixel regions with color ink; and curing the ink to form a plurality of color filters on the surface of the substrate. The light transmittance ability of the color filter can be effectively improved by forming a transparent-matrix instead of a black-matrix on the substrate. | 11-03-2011 |
20110287370 | METHOD FOR MAKING MICRON OR SUBMICRON CAVITIES - The invention relates to a method for forming walls of micron or submicron cavities, including:
| 11-24-2011 |
20110311919 | METHOD FOR FABRICATING AN IMAGE SENSOR DEVICE - A method for fabricating an image sensor device is disclosed. The method for fabricating an image sensor device comprises forming a photosensitive layer on a substrate. The photosensitive layer is exposed through a first photomask to form an exposed portion and an unexposed portion. The unexposed portion is partially exposed through a second photomask to form a trimmed part, wherein the second photomask comprise a first segment and a second segment that has a transmittance greater than that of the first segment. The trimmed part is removed to form photosensitive structures. The photosensitive structures are reflowed to form a first microlens and a second microlens having different heights. | 12-22-2011 |
20120028193 | BIREFRINGENCE PATTERN BUILDER - A birefringence pattern builder used in a method of producing a patterned birefringent product including a step of patterned light exposure of an optically anisotropic layer and a step of heating the layer after the light exposure to 50° C. or higher but not higher than 400° C., which include the optically anisotropic layer, a support, and a laminate film in this order, is provided. The birefringence pattern builder prevents nonuniformity of functional layers that may generate in the production process, is useful for a production method that hardly causes nonuniformity in the patterned birefringent product even after a rolling-up step in the industrial production process, and enables a production of a thinner product. | 02-02-2012 |
20120070785 | METHOD OF MANUFACTURING MICRO LENS ARRAY - A method of manufacturing a micro lens array, wherein the quality of an image is prevented from being deteriorated as a beam on an off-axis surface reaches a focal plane of a micro lens by forming a shading film for preventing the beam from penetrating through a space between micro lenses of the micro lens array, a micro lens having a high numerical aperture or any shape, such as an aspheric shape, is quickly manufactured at a low cost, and the micro lenses and a mask pattern are easily aligned by forming a mask pattern on a focus region formed by the micro lenses of the micro lens array. | 03-22-2012 |
20120077129 | PRODUCTION METHOD OF OPTICAL WAVEGUIDE FOR CONNECTOR - A production method of an optical waveguide for a connector is provided, which reduces an optical coupling loss. Cores are formed in a crossing pattern, a branched pattern or a linear pattern, and then an over-cladding layer formation photosensitive resin layer is formed over the cores. In turn, a heat treatment is performed at a temperature of 70° C. to 130° C. to properly form mixed layers in interfaces between the cores and the photosensitive resin layer. By thus forming the mixed layers, the connector optical waveguide can be produced as having a reduced optical coupling loss. | 03-29-2012 |
20120129107 | METHOD FOR MANUFACTURING A PATTERNED RETARDER - The present disclosure relates to a method for manufacturing the patterned retarder used in the three-dimensional display device. The present disclosure suggests a method for manufacturing a patterned retarder comprising: defining a first retarder region and a second retarder region in the patterned retarder; forming a first polarization pattern at the first retarder region by a partial exposure process having a first exposure energy; and forming a second polarization pattern at the second retarder region by whole exposure process having a second exposure energy. By manufacturing the patterned retarder with lower exposure energy, it is possible to reduce the whole manufacturing takt time, so that the production yield can be enhanced and the production cost can be reduced. | 05-24-2012 |
20120264065 | Method of Optical Fabrication of Three-Dimensional Polymeric Structures With Out of Plane Profile Control - A method of optical fabrication comprises coating a substrate with a photocuring material, controlling the application of light to the photocuring material so as to control the intensity and pattern of the light both in-plane and out of plane, and developing the photocuring material. | 10-18-2012 |
20120288803 | MANUFACTURING DEVICE OF OPTICAL DEFLECTOR AND MANUFACTURING METHOD OF THE SAME - A manufacturing device of optical deflectors and a manufacturing method of the same are revealed. The manufacturing device includes a movable work platform, a substrate, a lens and a femtosecond laser source. The substrate is disposed on the movable work platform and is coated with a photoresist polymer film. The lens is arranged at one side of the movable work platform. The femtosecond laser source produces a femtosecond laser that passes through the lens and projects onto the photoresist polymer film at a non-focal position of the lens so as to produce an optical deflector. The optical deflector is produced only by the femtosecond laser projected onto the photoresist polymer film at the non-focal position. Thus the production efficiency of the optical deflector is improved. | 11-15-2012 |
20120308937 | Uni-Directional Beam Splitter Coating - A beam splitter optical surface comprises a transparent substrate and a multilayer optical coating applied in a pattern onto the transparent substrate. The multilayer optical coating has at least an optically reflective layer and an optically absorbent layer. | 12-06-2012 |
20130137045 | UV Glass Production Method - The present invention discloses a UV glass production method, comprising the steps: arranging a blade on an exposure stage; controlling the position of an exposure area on a glass substrate by regulating the position of the blade; removing a film layer from the area to be transparent; and forming a UV mask in the area to be shaded. In the present invention, a mask blade is adopted, can individually move and be accurately controlled individually; thus, rays of an exposure machine can be accurately positioned for producing a UV glass which meets standards. Moreover, in the present invention, there is no need to design a light cover especially so as to save the design and production cost of the light cover; thus, the present invention can ensure the production accuracy and effectively save the production cost. | 05-30-2013 |
20140170568 | METHOD FOR MANUFACTURING WAVEGUIDE LENS - A method for manufacturing a waveguide lens is provided. A planar waveguide is provided, wherein the planar waveguide includes a top surface and a side surface perpendicularly connecting with the top surface, the side surface is coupled to a laser light source, and the laser light source emits a laser beam having a divergent angle and an optical axis substantially perpendicular to the side surface. A media film grating is formed on the top surface. The media film grating is made of a high refractive index material. The media film grating includes a plurality of parallel media film strips, each of which is substantially perpendicular to the side surface. A pair of strip-shaped electrodes is formed on the top surface and is arranged at opposite sides of the media film grating and the optical axis. The pair of strip-shaped electrodes is substantially parallel to the media film strips. | 06-19-2014 |
20140302442 | METHODS AND FABRICATION TOOLS FOR FABRICATING OPTICAL DEVICES - An embodiment of the present invention relates to a method of fabricating an optical device, the method comprising the steps of:
| 10-09-2014 |
20150017588 | PHOTOLITHOGRAPHIC PATTERNING OF A CYLINDER - Methods herein form a photoresist on an exterior of a cylinder and expose the photoresist to a light source while rotating the cylinder. Such methods develop the photoresist, after exposing, to change the photoresist into a patterned protective layer on the exterior of the cylinder. Then, these methods pattern the exterior of the cylinder while rotating the cylinder using the patterned protective layer to produce a patterned cylinder. | 01-15-2015 |
20150064629 | MANUFACTURING METHOD FOR MICROLENSES - A manufacturing method of microlenses includes providing a substrate; forming a microlens material on the substrate; disposing a mask over the microlens material; performing an exposure process by a radiant beam emitted to the microlens material via the mask; performing a developing process on the microlens material; and forming microlenses by performing a reflow process on the microlens material. | 03-05-2015 |
20160077264 | PATTERNING METHOD AND METHOD OF MANUFACTURING WIRE GRID POLARIZER USING THE SAME - A pattering method includes forming guide layer patterns, which are separated from each other, on a top surface of a base substrate, forming a neutral layer, which includes a random copolymer comprising first blocks or second blocks, on an entirety of the top surface of the base substrate exposed between the guide layer patterns, forming hydrophobic layer patterns which extend from top surfaces of the guide layer patterns to side surfaces of the guide layer patterns and are separated from each other, coating a block copolymer, which comprises the first blocks and the second blocks, on a top surface of the neutral layer exposed between the hydrophobic layer patterns, alternately arranging the first blocks and the second blocks by heat-treating or solvent-annealing the block copolymer, and forming block copolymer patterns by removing the first blocks or the second blocks. | 03-17-2016 |
20160077265 | POLARIZER, METHOD OF MANUFACTURING THE POLARIZER, DISPLAY PANEL HAVING THE POLARIZER AND DISPLAY APPARATUS HAVING THE DISPLAY PANEL - A display panel includes an array substrate, an opposite substrate facing the array substrate, and a liquid crystal layer between the substrates. The array substrate includes a first polarizer, a first insulating layer covering the first metal layer, a gate electrode on the first insulating layer, a gate insulation layer on the gate electrode, a channel layer on the gate insulation layer, source and drain electrodes on the channel layer, a protecting layer covering the source and drain electrodes and including a contact hole exposing the drain electrode, and a first electrode on the protecting layer and electrically connected to the drain electrode through the contact hole. The first polarizer includes a first substrate, a first antistatic layer on the first substrate and including a conductive material, and a first metal layer on the first antistatic layer and including a plurality of protrusions which form a wire grid pattern. | 03-17-2016 |
20160091789 | PRODUCTION PROCESS FOR OPTICALLY SHAPED PRODUCT AND PRODUCTION PROCESS FOR LIQUID DISCHARGE HEAD - A production process for an optically shaped product, including applying a photosensitive resin composition in a form of a dry film on to a substrate in which a hole opening to a surface thereof is formed so as to cover the hole and performing patterning to form an optically shaped product, wherein the photosensitive resin composition contains a resin comprising a tri- or higher functional epoxy resin and a bifunctional epoxy resin, the bifunctional epoxy resin has a weight-average molecular weight (Mw) of 5,500 to 60,000, the resin has a weight-average molecular weight (Mw) ranging from 4,500 to 11,000, and the mixing ratio by mass between the tri- or higher functional epoxy resin and the bifunctional epoxy resin satisfies (b)/(a)≦1.5, where (a) is the mass of the tri- or higher functional epoxy resin, and (b) is the mass of the bifunctional epoxy resin. | 03-31-2016 |
20160252816 | METHOD FOR PRODUCING OPTICAL WAVEGUIDE | 09-01-2016 |