Abstract: The invention relates to an optical element for guiding and forming a laser beam, and to a method for recording beam parameters, particularly in a laser system, comprising a carrier substrate (40) and a coating (39), which is applied to at least one side of the carrier substrate (40), and comprising at least one temperature sensor (38). The temperature sensor (38) is comprised of a number of pixels arranged in a matrix, and each respective pixel has at least one temperature-sensitive element (39). The at least one temperature-sensitive element (39) of the pixel is constructed inside the carrier substrate (40) made of silicon.

Abstract: An apparatus for irradiating blood or blood products, preferably with ultra violet or visible light, to reduce contaminants in the blood or blood products. A removable radiometer having light integrating chambers detects the light intensity, allowing the radiation characteristics of the apparatus to be calibrated. The light chambers have an aluminum reflecting surface prepared by machining, grit blasting, polishing and plasma treatment including plasma cleaning and oxidation.

Abstract: A cool light source includes a reflector having a band-reject reflective coating and an underlying absorptive coating. The cool light source also includes a window with a band-pass transmission function that is substantially complimentary to the band-reject reflective coating.

Abstract: A solar mirror comprising a transparent substrate (51) (e.g. clear float glass or low-iron glass), a reflective layer (53) (e.g. of silver) provided on a surface of the substrate, and a coating layer (54, 55) (e.g. a paint layer or other protective layer) provided over the reflective layer, wherein the reflective layer is provided in a thickness of at least 1600 ?.

Abstract: A mirror serves for guiding a radiation bundle. The mirror has a basic body and a coating of a reflective surface of the basic body, the coating increasing the reflectivity of the mirror. A heat dissipating device serves for dissipating heat deposited in the coating. The heat dissipating device has at least one Peltier element. The coating is applied directly on the Peltier element. A temperature setting apparatus has at least one temperature sensor for a temperature of the reflective surface. A regulating device of the Temperature setting apparatus can be connected to the at least one Peltier element and is signal-connected to the at least one temperature sensor. The result is a mirror in which a heat dissipating capacity of the heat dissipating device is improved.

Abstract: The present invention relates to improved electro-optic rearview mirror elements and assemblies incorporating the same. Area of the effective field of view of the electro-optic mirror element substantially equals to that defined by the outermost perimeter of the element.

Abstract: A mirror reflective element system has a front substrate having a first surface and a second surface, the second surface having a transparent second surface electrically conductive coating disposed thereon, and a rear substrate that has a third surface and a fourth surface, the third surface having a third surface electrically conductive coating disposed thereon. An attaching surface of a heating element is attached at the fourth surface. The heating element has an electrically conductive heating element established thereat and includes first and second electrically conductive traces. The electrically conductive heating element and the first and second electrically conductive traces are electrically isolated from one another.

Abstract: A carrier structure (100), particularly for optical components, includes a carrier body (10) which is formed from ceramic with hollows (11), and at least one cover layer (21, 22) which is formed from glass, arranged on at least one surface of the carrier body (10), and is connected to the carrier body (10) by means of at least one bond connection (23, 24) produced by means of anodic bonding. Methods for producing the carrier structure (100) and the use of the carrier structure as a mirror body, carrier for optical components and/or mechanical carrier for dynamically moved components are also described.

Abstract: The present invention provides a vehicle mirror and a manufacturing method therefor which allow the rear face side of a mirror element to be dark-colored without using a color plate or color coating. A mirror element is configured by forming a semitransparent reflective film made of a dielectric multilayer film on the front face of a flat transparent substrate. A dark-colored self-adhesive film is attached to the rear face of the mirror element. The dark-colored self-adhesive film is configured by forming an adhesive layer on the rear face of a dark-colored film layer by means of application. Grid-like air release channels are formed at fine pitches with minimal depth on an entire surface of the adhesive layer. After the dark-colored self-adhesive film is attached to the rear face of the mirror element, the grid-like air release channels visible from a front side of the mirror element are eliminated by heating and/or pressurizing.

Abstract: A reflector for photovoltaic power generation is characterized by the use of a color coating on the surface of the reflector material which is stable to ultraviolet light. The reflector includes a substrate and a layer of high purity aluminum on the substrate. The aluminum layer is anodized and coated with a gold dye so that the reflector has a reflectivity which is high for long wave, near infrared, and red to green light, moderate for blue light, and low for ultraviolet light. When such a reflector is arranged adjacent to a photovoltaic panel, it reflects additional sunlight onto the panel to increase the electrical output of the panel without damaging the solar collector material of the panel.

Abstract: The present invention provides a reflection film, a reflection film laminate which are less likely to undergo agglomeration or sulfidation of an Ag thin film due to heat, and a LED, an organic EL display, and an organic EL illuminating instrument, each including any of these. The reflection film in accordance with the present invention is a reflection film formed on a substrate, characterized by being an Ag alloy film including Ag as a main component, and Bi in an amount of 0.02 atomic percent or more, and further including one or more of V, Ge, and Zn in a total content of 0.02 atomic percent or more, and satisfying the following expression (1): 7×[A]+13×[Bi]?8??(1) where [A] (atomic percent) denotes the content of one or more of the V, Ge, and Zn, and [Bi] (atomic percent) denotes the content of Bi.

Abstract: A light-weight mirror blank assembly, having at least one sheet of corrugated material; and at least one face sheet in intimate contact with a surface of the sheet of corrugated material forming the light-weight mirror blank assembly. The light-weight mirror blank assembly has an areal density less than an equivalent blank assembly having a solid support structure for supporting a mirrored surface.

Abstract: An improved low-glare motor-vehicle mirror is realized by providing it with a multilayer coating comprising the following layers, in the order of their deposition: a transparent metallic layer; a first dielectric layer; a second dielectric layer with a lower refractive index than that of the first dielectric layer, and a metallic reflecting layer.

Abstract: A substrate and methods of making is provided. The substrate is made of glass or glass ceramic and finds use as a mirror support having a light-weight structure. The substrate includes recesses and is reinforced with covers in the region of bearing points for rigidification.

Abstract: A method for producing an optical element or part of an optical element having a base body, including:—providing a mold body (21, 1000, 2000) which has a surface corresponding to the geometry of the optical element;—depositing a layer system (7) including at least one separation layer system (15, 1010, 2010) on the surface of the mold body (21, 1000, 2000);—electroforming a base body (4, 1030, 2030) on the layer system (7); and—detaching at least the base body from the mold body (21, 1000, 2000) at the separation layer system (15, 1010, 2010).

Abstract: An antireflection film comprises: at least one layer containing fine pores; and an antistatic layer, wherein the antistatic layer and one of said at least one layer containing fine pores are the same or different; and wherein, when a surface of the antireflection film is brought into contact with water for 15 minutes, a wiped portion of the surface shows a chromaticity change, ?E, of 0.45 or less in the CIE 1976 L*a*b* color space measured under a standard illuminant D65.

Abstract: A solar heliostat and system are described with various characteristics particularly suitable for concentrating systems with a relatively large number of small heliostats. Other features contribute to high performance, low cost, high durability, and high temperature operation, such as desired for high efficiency thermal power generation.

Abstract: A reflecting sheet of the invention includes at least a surface layer portion and an inner layer portion, where the surface layer portion contains at least 0.3 g/m2 to 20 g/m2 of an inorganic powder and a polyolefin resin (C), the inner layer portion contains a polyolefin resin (A) and at least one kind of resins (B) incompatible with the polyolefin resin (A) at temperatures enabling stretching of the polyolefin resin(A), the surface layer portion meets (n1?n2)/n2?0.20 (n1: refractive index of the inorganic powder, n2: refractive index of the polyolefin resin (C)), and the inner layer portion has voids.

Abstract: An aperture diaphragm plate is provided to define a light flux on a pupil plane of an optical system or a plane or surface disposed in the vicinity of the pupil plane. An aperture, which is formed in the aperture diaphragm plate, has a three-dimensional shape corresponding to an optimum pupil shape of the optical system. It is possible to improve the imaging characteristic brought about by the optical system by providing the optimum pupil shape of the optical system.

Abstract: A method of reflecting impinging electromagnetic radiation by using engineered surfaces of alternating layers of materials having different indices of refraction is described. These layers can be fabrication or applied onto the surfaces of macro-scale objects. Also, a method of limiting the heating within the interior of an object being impinged upon by electromagnetic radiation is described.

Abstract: A method of providing a surface of a material with an image, includes applying to the surface an image sheet included (i) a flexible layer of a Shape Memory Polymer, and (ii) an image bonded to said layer by means of an image key coat. The image sheet is bonded to the surface by means of an adhesive and a process which involves heating of the Shape Memory Polymer to a temperature above its Glass Transition Temperature.

Abstract: A first surface mirror includes a reflective layer and one or more dielectric layers. In certain example embodiments, a silicon metal oxide (e.g., silicon aluminum oxide) inclusive nucleation layer(s) is provided above and/or below the reflective layer in order to improve durability of the first surface mirror.

Abstract: A reflective sheet includes a first reflective layer and a second reflective layer. The first reflective layer has a first index of refraction, and the second reflective layer has a second index of refraction. The first reflective layer and the second reflective layer are in contact with each other to form a contact interface, and the first index of refraction is different from the second index of refraction so as to make the contact interface be a reflective surface. A top surface of the first reflective layer opposite the contact interface serves as a light incident surface for the reflective sheet, the reflectance of the first reflective layer is larger than the reflectance of the second reflective layer, and the mechanical strength of the second reflective layer is larger than the mechanical strength of the first reflective layer.

Abstract: The light reflecting plate has a substrate made of metal plate, a binder layer made of organic resin or an inorganic material, which is formed on the substrate, a reflective layer formed of a plated layer of silver or silver alloy containing silver as a main component, which is formed on the binder layer, and a protective layer formed on the reflective layer.

Abstract: A fold mirror for a projection display system is designed to lessen a perceived variation in white color balance of light reflected across the mirror wherein the white light is comprised of sub-beams of orthogonal polarization states. The mirror comprises a metal reflective layer and a plurality of optically transparent layers, wherein thicknesses and materials of the optically transparent layers are such that wavelength-averaged reflectance for p-polarized incident green light varies by less than 1%, wavelength-averaged reflectance for s-polarized blue light varies by less than 1.5%, and wavelength-averaged reflectance for s-polarized red light varies by about 4% over a range of angles of incidence between 0 and 65 degrees.

Abstract: Disclosed are a mirror unit and a method of producing the same. In one preferred embodiment, the mirror unit includes a mirror with a multilayered film formed on a substrate, the multilayered film having two materials periodically laminated in layers on the substrate, and a substrate deforming device for producing deformation of a shape of the substrate of the mirror, wherein, in the multilayered film, the number of laminated layers in a predetermined region of the substrate differs from that in another region of the substrate. A mirror unit producing method according to another preferred embodiment includes forming a multilayered film on a substrate, the multilayered film having two materials periodically laminated in layers on the substrate, providing substrate deforming means in association with the substrate, the deforming means having a function for producing deformation of the shape of the substrate, and partially removing the multilayered film.

Abstract: A mirror (e.g., first surface mirror) is provided with a layer of or including chromium nitride (CrNx). In certain example embodiments, the CrNx layer may be the primary reflective layer of the mirror. Surprisingly and unexpectedly, it has been found the addition of nitrogen to the chromium to form CrNx reduces pinhole formations in the resulting layer. In certain example embodiments, the more nitrogen which is introduced into the layer, the smaller the number and/or size of pinholes in the Cr inclusive layer. In certain example embodiments, it has also been found that the addition of nitrogen to Cr may improve durability.

Abstract: A device (100; 200; 300; 400) comprising a sealed cavity (210) containing n volumes of fluids (80, 87; 220, 230; 320, 332; 420, 422, 430, 432) is described, where n is an integer and n?2. Each volume of fluid is substantially immiscible with every contiguous volume of fluid. The cavity is defined by an interior surface divided into n continuous areas (60, 170; 260, 270; 360, 362, 370; 460, 462, 470, 472), each continuous area corresponding to and being in contact with a respective one of the volumes of fluid. The wettability of each area is such that each volume of fluid preferentially adheres to the corresponding continuous area rather than any one of the continuous areas adjacent to the corresponding area.

Abstract: A silver mirror construction that maintains a high percentage of hemispherical reflectance throughout the UV and visible spectrum when used in solar reflectors, comprising: a) a pressure sensitive adhesive layer positioned beneath a silver overlay; b) a polymer film disposed on the silver overlay; c) an adhesive layer positioned on the polymer film; and d) a UV screening acrylic film disposed on the adhesive layer.

Abstract: A dichroic mirror includes a substrate and a dielectric multilayered film formed on a surface of the substrate. The dielectric multilayered film includes a first period layer with a structure represented by a formula (0.7H1.4L0.7H)n and a second period layer with a structure represented by a formula (2H?L)m in order from the substrate side. Wherein H represents a high refractive index layer and L represents a low refractive index layer, H and L are set at ¼ lambda of a reference wavelength associated with the film, ? is a coefficient of the L, and the superscript represents the number of repetitions of the structure, enclosed by the parentheses, used in the correspond first period layer or second period layer.

Abstract: Mirrors having a glass substrate, a silver coating layer on a surface of the glass substrate and an exposed epoxy paint layer overlaying the silver coating layer. The mirrors show a scratch resistance determined by the Clemen test showing scratches of less than 10 ?m when applying a weight of 1500 g; a hardness determined by the Persoz pendulum of at least 250 s; and a commercially acceptable resistance to at least three glues amongst oxime, alcoxy, MS polymer and rubber.

Abstract: A mirror with no copper layer includes a glass substrate, a silver coating layer provided at a surface of the glass substrate, and at least one paint layer covering the silver coating layer, where the colour of the paint layer adjacent to the silver coating layer is characterised by L* being less than 40.

Abstract: A method of forming a reflector member which contributes to an improvement of the quality of the image, and a reflective structure and a liquid crystal display device to which the method is applied. The plurality of holes are formed by exposing the first photosensitive film to light and developing it. A second photosensitive film is formed on the first photosensitive film in which the plurality of holes have been formed. The reflective electrode is formed on the second photosensitive film.

Abstract: A method for manufacturing a multilayer mirror that includes a substrate and a multilayer film formed on the substrate, and has a reflection surface shape includes the steps of estimating a surface shape variation amount as a difference between a surface shape of the substrate before the multilayer film is formed on the substrate and a surface shape of the multilayer mirror after the multilayer film is formed on the substrate, processing the surface shape of the substrate into a shape generated by subtracting the surface shape variation amount from the reflection surface shape, and forming the multilayer film on the substrate processed by the processing step.

Abstract: A reflective and deformable micromirror device comprises a reflective micromirror plate attached to a deformable hinge that is formed on and held by a hinge post on a substrate. The substrate has an addressing electrode formed thereon. A selected dielectric material is disposed between the deformable hinge and the addressing electrode.

Abstract: A mirror assembly in one embodiment may include a first conductive member that is substantially transparent, a second conductive member that comprises a reflective portion, a third conductive member that is operatively connected to the first conductive member and the second conductive member, a front portion that is substantially transparent and that is formed by injecting a first thermoplastic material into a mold on a first side of the first conductive member, an inner portion that is formed by injecting a second thermoplastic material into the mold on a second side of the second conductive member, and a back portion that is substantially opaque and that is formed by injecting a third thermoplastic material into the mold on the second side of the second conductive member. The front portion and the back portion together may substantially encompass a first perimeter of the first conductive member and a second perimeter of the second conductive member.

Abstract: There is provided an optical component. The optical component includes a material having a coefficient of thermal expansion ?, where the coefficient of thermal expansion is dependent on location. The following applies to the location-dependent coefficient of thermal expansion: ?= ?±??, with ?? being the maximum deviation of the coefficient of thermal expansion from the mean value of the coefficient of thermal expansion ? of the material. The following homogeneity condition applies to the material: ? ?? ? ? ( 0.14 + 0.1 · x + 390 x ) · ? _ Q . ?with the progress of the lacation-dependent progress of the coefficient of thermal expansion being periodical with a wavelength x given in mm, and the thermal output which is absorbed by the optical component being designated by Q given in watts (W), the resulting emissivity being designated by ?, and |??|in units of ppb K .

Abstract: A polygon mirror of a laser scanning unit includes reflective surfaces to reflect laser beams, and first to third dielectric layers laminated on the reflective surfaces. The second dielectric layer comprises TiO2, which can reduce a reflectivity deviation of the wavelengths of the laser beams to below 2%.

Abstract: A manufacturing process for enhancing a light reflective rate in a reflective type display device is provided. The manufacturing process comprises steps of: forming a first conductive layer and a first dielectric layer over a substrate; etching the first dielectric layer; polishing the etched first dielectric layer; forming a second conductive layer over the substrate; and patterning the second conductive layer to form a concave mirror on the surface of the second conductive layer.

Abstract: The present invention provides a reflector for a solar energy collection system. The reflector comprises a reflective material for receiving solar radiation and directing the received solar radiation to an absorber. The reflector also comprises a polymeric body supporting the reflective material. The polymeric body comprises a polymeric core that is sandwiched by at least one polymeric layer.

Abstract: A reflector film can have a high heat resistance and can maintain a high reflectance (or effectively prevent the decrease in the reflectance) when overlaid with a particular protective film. A lighting apparatus can also be configured for use with such a reflector film. The reflector film can include a silver or silver alloy film deposited on a substrate, and a titanium or titanium alloy film deposited on the silver or silver alloy film to serve as a protective film.

Abstract: Security rearview mirror for the opening of the vehicle rear door, set to show the outer, side and back area of a car while proceeding with the opening of the rear door by the occupant of the back part of the vehicle.

Abstract: To compensate for uneven brightness in the longitudinal direction of fluorescent lamps of a backlight unit and achieve a display screen with an even brightness, a reflection unit of the backlight unit, the fluorescent tube surface of the fluorescent lamps or a diffusion unit is used to either reduce the reflectance, transmittance, or radiation brightness of the high-voltage side of the fluorescent lamps or increase the reflectance, transmittance, or radiation brightness of the low-voltage side thereof so as to compensate for uneven brightness of the illumination light and thereby ensure an even brightness. For example, dot pattern regions D1, D2 and D3, i.e., the regions whose density increases in stages, are imparted to the portion of a reflection layer 13 of the backlight unit with a relatively high brightness.

Abstract: A reflector having a structure in which a high refractive index layer, a low refractive index layer, and a metal layer mainly composed of silver or aluminum are sequentially arranged on a polymer base. The reflector can realize a higher reflectance than the conventional reflective bodies by using a polymer base wherein the atoms measured by XPS which constitute the surface of the polymer base are substantially identical with those constituting the inside of the polymer base. Furthermore, such a reflector can be used for a reflector, a reflector under a light-guiding plate, a backlight device and a liquid crystal display. The polymer base can be obtained by bringing a polymer base and a liquid into contact with each other.

Abstract: In a front surface mirror used for a rear projection television, in which a metal film and a metal oxide film are formed on a glass substrate in this order, the front surface mirror being characterized in that a surface of the glass substrate is reformed by ion etching and that the metal film is an Al film.

Abstract: A light-weight mirror blank assembly, having at least one sheet of corrugated material; and at least one face sheet in intimate contact with a surface of the sheet of corrugated material forming the light-weight mirror blank assembly. The light-weight mirror blank assembly has an areal density less than an equivalent blank assembly having a solid support structure for supporting a mirrored surface.

Abstract: A microelectromechanical system (MEMS) is provided. In one embodiment, the MEMS includes a transparent substrate, and a plurality of interferometric modulators. The plurality of interferometric modulators includes an optical stack coupled to the transparent substrate, in which the optical stack includes a first light absorbing area. The plurality of interferometric modulators further includes a reflective layer over the optical stack, and one or more posts to support the reflective layer. Each of the one or more posts includes a second light absorbing area integrated in the post.

Abstract: In a first exemplary embodiment of the present invention, an optical device comprises a telescope, a coronagraph device coupled to the telescope and having a focal plane occulting mask to provide a coronagraphic image, and a reticulate grid element arranged in a light path propagated through the telescope, at a location relative to the coronagraphic image, to create controlled fiducial spots in the coronagraphic image.

Abstract: A reflective element for a mirror assembly for a vehicle includes a substrate and a functional or anti-abrasion film applied to an exterior surface of the substrate. The substrate comprises a polymeric resin material, such as a transparent optical polymeric resin material. The functional or anti-abrasion film may comprise a glass material and may have a thickness of less than approximately 0.8 mm. The anti-abrasion film is flexible to conform to the exterior surface of the substrate. The flexible film may be unrolled from a reel or roll and applied to the exterior surface of an elongated strip or sheet of substrate material. The substrate, including the glass film or layer, may then be cut or otherwise formed from the elongated strip or sheet of molded or extruded or cast substrate material.

Abstract: A surveying type target has a precisely located aperture that achieves tolerances, within +/?0.0005 inch, in the assembly and usage of a retro-reflective photogrammetry target for use with close range industrial photogrammetry. The dot the target may also be refurbished and reconditioned in the field under all weather conditions. This target has a precisely machined ring that fits into a precisely machined socket of a body to eliminate assembly irregularities. This target precisely locates the ring upon the body forming a finished target with a known centerline and height location within +/?0.0005 inch tolerance.