Class / Patent application number | Description | Number of patent applications / Date published |
359485050 | Wire grid polarizer | 47 |
20110080640 | WIRE-GRID POLARIZER AND PROCESS FOR PRODUCING THE SAME - Provided is a wire grid polarizer showing a high degree of polarization, a high p-polarized light transmittance and a high s-polarized light reflectivity for light incident from a front surface and showing a low s-polarized light reflectivity for light incident from its rear surface, in the visible light region, and a process for producing such a polarizer. | 04-07-2011 |
20110261455 | Wire Grid Polarized And Liquid Crystal Display Device Using The Same - A wire grid polarizer includes fine metal wires arranged parallel to one another and thus transmitting TM-polarized light. A light absorbing layer for absorbing TE-polarized light is provided on at least one of the surfaces of the wire grid polarizer. | 10-27-2011 |
20110286094 | Wire-grid polarizer and process for producing the same - Provided are a wire-grid polarizer, which has not only a high degree of polarization, a high p-polarized light transmittance and a high s-polarized light reflectance but also a low angle dependency and a low wavelength dependency in terms of optical properties in a visible light region, and a process for producing the same. | 11-24-2011 |
20120008205 | MULTILAYER WIRE-GRID POLARIZER WITH OFF-SET WIRE-GRID DIELECTRIC GRID - A wire-grid polarizer includes a stack of thin film layers disposed over a substrate including a wire grid layer and a plurality of thin film layers disposed between the wire grid layer and the substrate. The wire-grid layer includes an array of elongated metal elements, comprising lengths longer than a wavelength of visible light, a period less than 200 nanometers, a height less than 400 nanometers; and a material selected from the group consisting of aluminum, silver, gold, copper, or combinations thereof. The plurality of thin film layers disposed between the wire grid layer and the substrate include at least one dielectric grid layer and at least one thin film layer comprising silicon. The dielectric grid layer and the wire-grid are substantially parallel with one another, have substantially equal periods, and have substantially equal widths. | 01-12-2012 |
20120013981 | PHOTOCHROMIC OPTICAL ELEMENTS - An optical element has a substrate material having a pattern of cavities formed on a surface and a substantially transparent seal layer disposed against the surface. A photochromic or electrochromic material is sealed by the substantially transparent seal layer within the cavities formed in the surface. | 01-19-2012 |
20120176676 | METHOD OF PRODUCING WIRE-GRID POLARIZER AND WIRE-GRID POLARIZER - A line-and-space structure having a line portion and a space portion is formed by applying a sol-gel coating on a substrate and transferring a structure of a mold to the coating, and an embedded metal portion is formed by filling the space portion with a molten metal. As the metal to be molten, a metal material having a melting point of not higher than 650° C. and showing, after the solidification, an average extinction coefficient of higher than 5.0 or an average extinction coefficient of higher than 4.5 and an average refractive index of less than 1, at a wavelength range of 400 to 700 nm, is selected to improve optical characteristics. | 07-12-2012 |
20120236410 | WIRE-GRID POLARIZER AND PROCESS FOR PRODUCING THE SAME - A wire-grid polarizer comprising a light-transmitting substrate | 09-20-2012 |
20120250154 | FINE PITCH WIRE GRID POLARIZER - A fine pitch wire grid polarizer can have a pitch of less than 80 nanometers and a protective layer on the wires, by anisotropically etching the wire grid polarizer to form two parallel, elongated rods substantially located at corners where the wires contacted the substrate. The rods can be polarizing elements. A wire grid polarizer can have a repeated pattern of groups of parallel elongated wires disposed over a substrate. Each group of elongated wires comprises at least three wires. At least one wire at an interior of each group can be taller by more than about 10 nm than outermost wires of each group. Wires of a wire grid polarizer can be a byproduct of an etch reaction. A multi-step wire grid polarizer can comprise a base with a plurality of parallel multi-step ribs disposed on the base and a coating disposed along vertical surfaces of the steps. | 10-04-2012 |
20120268817 | SINGLE-SHOT LASER ABLATION OF A METAL FILM ON A POLYMER MEMBRANE - A method comprises spatially selectively irradiating in a predetermined pattern with an output beam of a laser system an interface between a polymer substrate and a metal film on the polymer substrate. The polymer substrate is substantially transparent to the output beam of the laser system; the metal film absorbs a substantial fraction of the output beam. Laser system output comprises a sequence of pulses. Beam size at the polymer/metal interface, pulse energy, and pulse duration are selected so that each pulse from the laser system that irradiates an area of the polymer/metal interface substantially completely removes by ablation the metal film from at least a portion of the irradiated area without substantially altering the surfaces or bulk of the polymer substrate and without leaving on the polymer substrate or on remaining areas of the metal film substantial residue of metal that resolidified after being melted by the laser irradiation. | 10-25-2012 |
20130044373 | WIRE-GRID POLARIZER AND PROCESS FOR PRODUCING THE SAME - Disclosed are a wire grid polarizer, which exhibits high polarization, p-polarized light transmittance, and s-polarized light reflectance in the visible light region, and the optical characteristics of which have low angular dependence and wavelength dependence, and a manufacturing method for the same. A wire grid polarizer ( | 02-21-2013 |
20130070338 | LIGHTWEIGHT EYEPIECE FOR HEAD MOUNTED DISPLAY - An eyepiece includes an eyepiece frame, an in-coupling polarization beam splitter (“PBS”), an end reflector, and an out-coupling PBS. The eyepiece frame defines an air cavity and includes an illumination region for receiving computer generated image (“CGI”) light into the eyepiece frame and a viewing region to be aligned with an eye of a user. The in-coupling PBS is supported within the eyepiece frame at the illumination region to re-direct the CGI light to a forward propagation path extending along the air cavity towards the viewing region. The end reflector is disposed to reflect the CGI light back along a reverse propagation path within the eyepiece frame. The out-coupling PBS is supported at the viewing region to pass the CGI light traveling along the forward propagation path and to redirect the CGI light traveling along the reverse propagation path out of an eye-ward side of the eyepiece frame. | 03-21-2013 |
20130077164 | WIRE GRID POLARIZER WITH MULTIPLE FUNCTIONALITY SECTIONS - A wire grid polarizer with multiple functionality sections. Separate and discrete sections can include a difference in pitch p, a difference in wire width w, a difference in wire height h, a difference in wire material, a difference in coating on top of the wires, a difference in thin film between the wires and the substrate, a difference in substrate between the wires, a difference in number of layers of separate wires, and/or a difference in wire cross-sectional shape. | 03-28-2013 |
20130215507 | INORGANIC POLARIZING PLATE - To provide an inorganic polarizing plate which, when used in structures having different used wavelength bands, can reduce reflectance by using a common structure, making it possible to achieve a predetermined light extinction ratio. The inorganic polarizing plate has a substrate that is transparent to light in a used bandwidth, a reflective layer that is composed of grids that are formed on one surface of the substrate with a pitch that is smaller than a wavelength of light in the used bandwidth, a dielectric layer that is stacked on the reflective layer, and an absorbing layer containing FeSi fine particles. | 08-22-2013 |
20130242392 | NEAR-TO-EYE DISPLAY WITH DIFFRACTIVE LENS - An eyepiece for a HMD includes a waveguide, an ambient light polarizer, and a wire grid polarizer with a diffraction lens having a lens function patterned into the wire grid polarizer. Polarized image light is guided between eye-ward and ambient sides of the waveguide from a display source to a viewing region of the waveguide where the polarized image light is directed out of the waveguide through the eye-ward side. The viewing region passes ambient light incident on the ambient side through to the eye-ward side. The ambient light polarizer is disposed adjacent to the ambient side to polarize the ambient light into polarized ambient light having a second polarization orthogonal to the first polarization. The wire grid polarizer is disposed adjacent to the eye-ward side along the viewing region. The wire grid polarizer is oriented to applying the lens function to the polarized image light via diffraction. | 09-19-2013 |
20130250412 | POLARIZATION ELEMENT AND METHOD OF MANUFACTURING POLARIZATION ELEMENT - A polarization element includes a plurality of metallic thin lines that extend in one direction on one surface of a substrate, a protecting layer that is provided on the plurality of metallic thin lines, and a cavity portion that is surrounded by two metallic thin lines which are adjacent to each other, the substrate, and the protecting layer. Each end portion of the plurality of metallic thin layers has a forward tapered shape in a cross-section parallel to the one direction, and the protecting layer extends from the upper portion of the plurality of metallic thin lines to the one surface of the substrate through each end portion. | 09-26-2013 |
20130258471 | FINE PITCH GRID POLARIZER - A grid polarizer including an array of groups of parallel elongated ribs disposed over a substrate. Each group of elongated ribs can comprise at least four ribs. Tops of two center ribs, at a center of each group, can be substantially the same elevational height and can be higher by more than 10 nm than tops of outer ribs of the groups. A region between adjacent ribs can have an index of refraction substantially equal to one. Some or all of the ribs can comprise polarizing wires disposed over substrate rods. | 10-03-2013 |
20130271834 | WIRE GRID POLARIZER - Provided is a wire grid polarizer including: a first grid patterns on a substrate; a second grid pattern on the first grid patterns; and a passivation layer filling between the first grid patterns and the second grid patterns. | 10-17-2013 |
20140016197 | Fine Pitch Wire Grid Polarizer - A wire grid polarizer can have a repeated pattern of groups of parallel elongated wires disposed over a substrate. Each group of wires can comprise at least three wires. At least one wire at an interior of each group can be taller than outermost wires of each group. The wires can be a byproduct of an etch reaction. | 01-16-2014 |
20140146391 | POLARIZER AND METHOD OF MANUFACTURING THE SAME - A polarizer includes a substrate having a first refractive index, a metal pattern disposed on the substrate, and a passivation layer disposed on the metal pattern. The metal pattern includes a plurality of protrusions having widths. The passivation layer has a second refractive index and covers at least one surface of the protrusions. | 05-29-2014 |
20140192409 | ABSORPTIVE WIRE-GRID POLARIZER AND OPTICAL APPARATUS - The absorptive wire-grid polarizer includes a periodic structure formed on a substrate surface of a dielectric substrate and constituted by a metal and one or more dielectric materials. The periodic structure has a one-dimensional grating structure in which, in a sectional plane orthogonal to a normal to the substrate surface, grating portions of a metal grating formed of the metal and grating portions of dielectric gratings formed of the one or more dielectric materials are one-dimensionally arranged with a grating period P. The Conditions of n | 07-10-2014 |
20140218796 | SINGLE-SHOT LASER ABLATION OF A METAL FILM ON A POLYMER MEMBRANE - A method comprises spatially selectively irradiating in a predetermined pattern with an output beam of a laser system an interface between a polymer substrate and a metal film on the polymer substrate. The polymer substrate is substantially transparent to the output beam of the laser system; the metal film absorbs a substantial fraction of the output beam. Laser system output comprises a sequence of pulses. Beam size at the polymer/metal interface, pulse energy, and pulse duration are selected so that each pulse from the laser system that irradiates an area of the polymer/metal interface substantially completely removes by ablation the metal film from at least a portion of the irradiated area without substantially altering the surfaces or bulk of the polymer substrate and without leaving on the polymer substrate or on remaining areas of the metal film substantial residue of metal that resolidified after being melted by the laser irradiation. | 08-07-2014 |
20140254011 | FABRICATION OF COATABLE WIRE GRID POLARIZERS - A wire grid polarizer formed as a self-assembled coating on a substrate surface. Metal or other conductive nanowires are coated with a transparent dielectric material having a thickness approximately equal to one-half of the desired WGP wire spacing or pitch. A suspension of coated nanowires in a chromonic liquid crystal is shear-coated onto an aligned substrate and dried. The chromonic liquid crystal, a solution of dye molecules and water, forms an orderly structure and induces the nanowires to align with their longitudinal axes parallel to the shear direction and/or alignment direction. The polarizer has a minimum polarizing wavelength determined by an average lateral spacing of nanowire segments. The polarizer has a transmissivity and a contrast ratio determined by the width of the nanowire segments. | 09-11-2014 |
20140300964 | WIRE GRID POLARIZER WITH SUBSTRATE CHANNELS - A wire grid polarizer with substrate channels comprising an array of substantially parallel channels extending into a substrate. An array of substantially parallel ribs is defined between the array of channels and integral with and extend from the substrate. The channels contain at least one material to form an array of substantially parallel wires. The ribs separate the wires into separate and discrete wires. | 10-09-2014 |
20140368909 | Glare Management of Reflective and Thermoreflective Surfaces - The reflectivity and transmissivity of building and vehicle surfaces is maintained while employing partial, variable, selective, or asymmetric diffusers between a surface and an external light source such that the reflected light is diffused to produce a reduction in glare, while minimally effecting the specular or collimated transmission (if any) of light through the surface. Glare is also reduced by utilizing diffuser devices that reflect light in a temperature dependent manner. | 12-18-2014 |
20150009564 | POLARIZER, POLARIZED LIGHT ILLUMINATING APPARATUS HAVING THE SAME AND METHOD OF MANUFACTURING THE SAME - A polarizer includes a base substrate and a metal pattern disposed on the base substrate and forming a wire grid. The wire grid has a width and a height and spaced apart from adjacent wire grid by a separation distance. A pitch is a sum of the width and the separation distance. A fill factor is obtained by dividing the width by the pitch. The range of the fill factor is based on an extinction ratio of polarization and a transmittance of the polarizer. | 01-08-2015 |
20150015948 | POLARIZING PLATE AND METHOD OF MANUFACTURING THE SAME - A polarizing plate having an excellent optical property and a method of manufacturing the same are disclosed. The polarizing plate includes: a transparent substrate | 01-15-2015 |
20150070762 | POLARIZER, DISPLAY DEVICE HAVING THE SAME, AND METHOD OF MANUFACTURING THE SAME - A polarizer includes a base substrate, a metal wire layer disposed on the base substrate, and a plurality of wire grid patterns disposed on the base substrate or the metal wire layer. | 03-12-2015 |
20150077851 | MULTI-LAYER ABSORPTIVE WIRE GRID POLARIZER - A wire grid polarizer comprising an array of parallel, elongated first rib groups disposed over a substrate. Each first rib group can comprise a central first transmissive rib and a pair of first wires including a first wire disposed along each side of the first transmissive rib. A first dielectric material can substantially fill first gaps between each rib group and an adjacent rib group. An array of parallel, elongated second wires can be disposed over the rib groups and the first dielectric material. The first wires or the second wires can be absorptive and the other of the first wires or the second wires can be reflective. | 03-19-2015 |
20150116824 | POLARIZER WITH WIRE PAIR OVER RIB - Wire grid polarizers, and methods of making wire grid polarizers, including an array of parallel, elongated nano-structures disposed over a surface of a substrate. Each of the nano-structures can include a first rib disposed over a surface of a substrate and a pair of parallel, elongated wires, each laterally oriented with respect to one another, and disposed over the first rib. The wire grid polarizers can be durable with high transmission of one polarization of light, high contrast, and/or small pitch. The wire grid polarizers can also have high absorption or high reflection of an opposite polarization of light. | 04-30-2015 |
20150116825 | POLARIZER WITH VARIABLE INTER-WIRE DISTANCE - A wire grid polarizer comprising an array of parallel, elongated nano-structures disposed over a surface of a substrate. Each of the nano-structures can include a pair of parallel, elongated wires (or top ribs), each oriented laterally with respect to one another. There can be a first gap disposed between the pair of wires (or top ribs). Each of the nano-structures can be separated from an adjacent nano-structure by a second gap disposed between adjacent nanostructures, and thus between adjacent pairs of wires. A first gap width of the first gap can be different than a second gap width of the second gap. Also included are methods of making wire grid polarizers. | 04-30-2015 |
20150131150 | WIRE GRID POLARIZER WITH SIDE REGION - Structures and methods of making wire grid polarizers having multiple regions, including side bars, strips, and/or side ribs along sides of a central region. The central region can include a single region or multiple regions. Each region can have a different function for improving polarizer performance. The various regions can support each other for improved wire grid polarizer durability. | 05-14-2015 |
20150323720 | POLARIZATION STRUCTURE AND METHOD FOR MANUFACTURING THE SAME, AND DISPLAY PANEL - The invention discloses a polarization structure and a method for manufacturing the same, and a display panel. The polarization structure comprises a polarization layer, and the polarization layer comprises: a transparent dielectric film; and an oriented nano-metal wire array that is distributed in the transparent dielectric film. The invention provides a novel polarization structure, and the polarization layer of the polarization structure has an oriented nano-metal wire array; because plasma resonance can occur between the oriented nano-metal wire array and an incident lightwave with a certain wavelength, a lightwave parallel to the major axis direction of the nano-metal wire can be absorbed, and a polarization effect may be generated by a lightwave perpendicular to the major axis direction of the nano-metal wire, thereby it has a polarization performance. | 11-12-2015 |
20150331166 | INORGANIC POLARIZING PLATE AND PRODUCTION METHOD THEREOF - An inorganic polarizing plate, containing: substrate transparent to light of bandwidth for use; and wire grid layer containing metal wires aligned on the substrate with gaps shorter than wavelength of the light, the plate satisfying formulae (1) to (3): | 11-19-2015 |
20150346497 | CUBE POLARIZER - Cube polarizers designed for substantially equal optical path lengths of a reflected beam and a transmitted beam. Cube polarizers designed to reduce wire grid polarizer curvature in order to minimize wavefront distortion of the reflected beam and the transmitted beam. | 12-03-2015 |
20160033701 | WIRE GRID POLARIZER AND METHOD OF FABRICATING THE SAME - According an embodiment, a wire grid polarizer comprising a substrate, a plurality of conductive wire patterns that are formed on the substrate in a parallel arrangement, a first hard mask and a second hard mask disposed on the conductive wire patterns, and a protective layer formed on the first hard mask and the second hard mask, wherein a ratio of a vertical cross-sectional width of the first hard mask to a vertical cross-sectional width of the second hard mask is 1 or less is provided. | 02-04-2016 |
20160047961 | POLARIZER AND METHOD OF FABRICATING THE SAME - A method of fabricating a polarizer, the method including, forming a base substrate by sequentially forming a metal layer, a guide layer, a hard mask layer, a sacrificial layer, and a first photoresist layer on a light-transmitting substrate in a panel area and an alignment key area which are spatially separated from each other, forming a first photoresist layer pattern for forming an alignment key pattern in the alignment key area by patterning the first photoresist layer, forming a sacrificial layer pattern in the alignment key area utilizing the first photoresist layer pattern as a mask, and forming a second photoresist layer on a top surface of the sacrificial layer pattern of the alignment key area before removing the sacrificial layer of an aperture area of the panel area. | 02-18-2016 |
20160085008 | PANEL WITH REDUCED GLARE - A wire-grip polarizer (“WGP”), and a panel having said WGP is provided. The WGP is mounted on an absorption layer. The absorption layer is mounted on a substrate. The substrate is brightly colored. The WGP includes a plurality of gratings formed of a metallic element. Each of the gratings is spaced apart from the other so as to form a waveguide. The WGP is configured to transmit S-Polarized light and reflect P-polarized light. The A thin film layer may be disposed on each of the metallic gratings. The thin film layer is configured to generate a resonance so as to modify the reflectivity of P-polarized light so as to reduce veiling glare and maintain the brightness of the substrate. | 03-24-2016 |
20160085009 | INORGANIC POLARIZING PLATE CONTAINING FESI FINE PARTICLES - To provide an inorganic polarizing plate which, when used in structures having different used wavelength bands, can reduce reflectance by using a common structure, making it possible to achieve a predetermined light extinction ratio. The inorganic polarizing plate has a substrate that is transparent to light in a used bandwidth, a reflective layer that is composed of grids that are formed on one surface of the substrate with a pitch that is smaller than a wavelength of light in the used bandwidth, a dielectric layer that is stacked on the reflective layer, and an absorbing layer containing FeSi fine particles. | 03-24-2016 |
20160085071 | SEE-THROUGH COMPUTER DISPLAY SYSTEMS - Aspects of the present invention relate to providing see-through computer display optics. | 03-24-2016 |
20160131811 | WIRE GRID POLARIZER AND METHOD OF FABRICATING THE SAME - Provided is a method of fabricating a wire grid polarizer, the method comprising an organic light-emitting display panel. According to an aspect of the present disclosure, there is provided a method comprising sequentially stacking a conductive wire pattern layer, a first neutral layer, a guide pattern layer and a second neutral layer on a substrate, forming etch-stop patterns on the second neutral layer, forming second neutral layer patterns and guide patterns by patterning the second neutral layer and the guide pattern layer using the etch-stop patterns, coating a block copolymer of two types of monomer blocks having different etch rates on the first neutral layer and the second neutral layer patterns, aligning the block copolymer, removing one type of monomer blocks from the aligned block copolymer, and patterning the conductive wire pattern layer using the remaining monomer blocks, the second neutral layer patterns, and the guide patterns. | 05-12-2016 |
20160139313 | WIRE GRID POLARIZING PLATE, DISPLAY DEVICE INCLUDING THE SAME, AND METHOD OF FABRICATING SAID DISPLAY DEVICE - Provided is a wire grid polarizing plate. The wire grid polarizing plate comprises a light-transmitting substrate and wire grid patterns which are disposed on the light-transmitting substrate, and which are arranged to transmit first polarized light and to reflect second polarized light polarized in a direction perpendicular to that of the first polarized light, the wire grid patterns comprising target patterns comprising conductive structures shaped as closed curves, at least one of the conductive structures surrounding another one of the conductive structures with a gap therebetween. | 05-19-2016 |
20160146997 | WIRE GRID POLARIZER, DISPLAY DEVICE INCLUDING THE SAME AND METHOD FOR FABRICATING THE SAME - According to an embodiment, there is provided a wire grid polarizer comprising a substrate, a plurality of parallel conductive wire patterns which is located to protrude on the substrate, and an oxidation prevention layer which is located along an upper surface of the conductive wire patterns, wherein the oxidation prevention layer is formed of a compound including aluminum and fluorine. | 05-26-2016 |
20160154158 | WIRE GRID POLARIZER AND METHOD FOR FABRICATING THE SAME | 06-02-2016 |
20160161653 | WIRE GRID POLARIZER AND METHOD OF FABRICATING THE SAME - A wire grid polarizer and a method of fabricating a wire grid polarizer are provided. The wire grid polarizer comprises a substrate configured to have a plurality of recessed patterns disposed on a first surface thereof, a plurality of conductive wire patterns configured to be disposed in the recessed patterns, respectively, of the substrate, and an oxide layer configured to be disposed on the substrate and the conductive wire patterns. | 06-09-2016 |
20160161654 | WIRE GRID POLARIZER, DISPLAY DEVICE INCLUDING THE SAME, AND METHOD OF FABRICATING THE SAME - Provided are light source module and backlight unit. A wire grid polarizer including a substrate, and a plurality of conductive wire patterns configured to be formed parallel to one another on the substrate, wherein each of the conductive wire patterns includes a first conductive wire pattern, an insulating layer and a second conductive wire pattern and the first and second conductive wire patterns are electrically insulated from each other and have different shapes. | 06-09-2016 |
20160170115 | WIRE GRID POLARIZER AND METHOD OF MANUFACTURING THE SAME | 06-16-2016 |
20190146130 | REFLECTIVE DISPLAY DEVICE AND METHOD OF MANUFACTURING REFLECTIVE DISPLAY DEVICE | 05-16-2019 |