Abstract: A mirror element comprising a front element, a rear element, electrochromic material therebetween, and a spotter optic located at the rear surface of the front element. At least a portion of the spotter optic has a first radius of curvature and at least a portion of the front surface of the front element has a greater second radius of curvature. A line perpendicular to the front surface extends through both the electrochromic material and the spotter optic. A first electrode coating and a second electrode coating are activated to activate the electrochromic material in order to dim a reflection off of the mirror element. A reflective coating of the spotter optic can form a portion of the first electrode coating. The first electrode coating and the reflective coating can overlap.

Abstract: An optical filter includes: a first substrate and a second substrate that are disposed to face each other; a first mirror and a first electrode that are disposed on the second substrate side of the first substrate; and a second mirror and a second electrode that are disposed on the first substrate side of the second substrate, wherein the first mirror and the second mirror are connected via a wire.

Abstract: A method of camouflaging a structure against a background having a generally uniform composition of hue, saturation and brightness. In one embodiment, spaced regions on the exterior of a structure are colored with differing colors and regions between the spaced regions are colored with a gradient of the differing colors so as to create a gradual color transition between the spaced regions. In another embodiment, at least one reflector and, optionally at least one color filter, are located on a structure to reflect light in the foreground to a vantage point, and optionally filter such light, so as to effect a blending of at least a portion of the structure into the background when viewed from the vantage point.

Abstract: A reflex reflector can include: a first indicator member including a plate-like first reflector with a reflex reflective surface and a first link plate, in which the first reflector and the first link plate are linked and arranged at a certain angle; and a second indicator member including a plate-like second reflector with a reflex reflective surface and a second link plate having an opening in which the first reflector and the first link plate are linked and arranged at the certain angle. The first reflector on the first indicator member fits in the opening through the second indicator member, and the at least one first reflector on the second indicator member superimposes on the first link plate of the first indicator member, such that the first indicator member and the second indicator member can be configured as a single piece.

Abstract: The tunable optical filter is provided, comprising an optical means for separating an input optical signal into a tunable drop optical signal and an output optical signal, wherein the output optical signal is directed back along the same path as the input optical signal. One embodiment of the invention comprises an optical circulator, a pair of polarization beam splitters, a pair of half-wave plates, an optical thin-film filter, a rotatable mirror, a spatially fixed mirror. Optical wavelengths are selected by making angular adjustments to the optical thin-film filter and the rotatable mirror, which are rotated by the same angle. A corresponding method for spectrally splitting and spatially separating an input optical signal into an output optical signal and a drop optical signal is also provided.

Abstract: A direct vision periscope is disclosed having a second set of mirrors strategically positioned within a wide angle trapezoidal periscope. The main optical path has a vertical field of view of 24° above and below horizontal while the secondary optical path provides a field of view of 12° to 59° above horizontal to allow the occupants to see elevated areas. When used on military vehicles, multiple periscopes may be disposed about the operator's compartment to create a near panoramic view.

Abstract: A mirror for optical imaging includes a reflecting device having a reflective face. The reflecting device incorporates a light-emitting device of which one emitting end is situated in said reflective face in a zone which is not or not very reflective.

Abstract: There is provided a collector system. The collector system includes a first collector mirror and a second collector mirror. The first collector mirror receives EUV light from a light source at a first aperture angle via a first beam path, and reflects the EUV light at a second aperture angle along a second beam path. The first aperture angle is larger than or substantially equal to the second aperture angle. The second mirror receives the EUV light from the first mirror at the second aperture angle. The collector is an oblique mirror type normal incidence mirror collector system.

Abstract: A laser configuration for machining a workpiece includes a plurality of laser light sources for introducing a laser radiation into a predeterminable working area. Some or all of the laser light sources are disposed on an arc of a circle.

Abstract: A non-contact connector (10), having a rotation-side light-emitting element (13) and a rotation-side light-receiving element (14), positioned on a rotating body (1) which rotates about a rotation axis (4), a fixed-side light-emitting element (23) and a fixed-side light-receiving element (24), positioned on a fixed body (2), and a first partial ellipsoidal reflecting mirror (8) installed on the fixed body (2) and a second partial ellipsoidal reflecting mirror (6) installed on rotating body (1), each with one focal point positioned on the rotation axis (4).

Abstract: A faceted mirror apparatus includes a support plate having a plurality of stepped reception bores into which are fitted the base portions of respective ones of a plurality of mirror facets having mirrored surfaces. An outer surface of each of the facets bears on an inner wall to provide a stable alignment of the optical axes of the mirrored surfaces such that the apparatus generates a beam of rays from impinging rays.

Abstract: An optical system comprising a first optical unit and a first sensor unit for sensing electromagnetic radiation. The optical system also comprises a micromirror matrix unit which is arranged in the beam path between the first optical unit and the first sensor unit. The micromirror matrix unit is arranged to be able to be set in at least a first and a second state. In the first state, the micromirror matrix unit reflects incident electromagnetic radiation such that it reaches the first sensor unit. In the second state, the micromirror matrix unit reflects incident electromagnetic radiation such that it does not reach the first sensor unit. The invention also concerns a target-seeking system comprising such an optical system.

Abstract: An optical filter comprising: a first substrate; a second substrate facing the first substrate, the second substrate including a first surface and a second surface, a first height of the first surface being different from a second height of the second surface; a first mirror formed on the first surface of the second substrate; a second mirror formed on the second surface of the second substrate; a third mirror formed on the first substrate, the third mirror facing the first mirror; a fourth mirror formed on the first substrate, the fourth mirror facing the second mirror; a first electrode formed on the first substrate; and a second electrode formed on the second substrate, the second electrode facing the first electrode.

Abstract: A thin projection type image display device with a low chin height includes a cabinet, a screen, a projection optical system, an optical path changing unit, and a reflecting unit. The screen is disposed on a front side of the cabinet. The projection optical system enlarges and projects an image formed by a display element, and the optical path changing unit is disposed on the bottom of the cabinet to reflect the image enlarged and projected by the projection optical system. The reflection unit is disposed obliquely to the screen and below the screen to reflect the image reflected by the optical path changing unit toward the screen. The projection optical system is disposed in a space above a horizontal plane perpendicular to the screen, behind the front side of the cabinet, and below an optical path of light incident on a bottom of the screen.

Abstract: There is provided a collector system. The collector system includes a first collector mirror and a second collector mirror. The first collector mirror receives EUV light from a light source at a first aperture angle via a first beam path, and reflects the EUV light at a second aperture angle along a second beam path. The first aperture angle is larger than or substantially equal to the second aperture angle. The second mirror receives the EUV light from the first mirror at the second aperture angle. The collector is an oblique mirror type normal incidence mirror collector system.

Abstract: A periscope that is switchable between the normal optical view of the outside, a display view, and an overlay view in which the outside view and display view are combined. The switching element is an electronically switchable mirror with primarily reflective, primarily transparent, and intermediate states, depending on the application of electrical potentials.

Abstract: A rear view mirror for a vehicle has certain asymmetrical aerodynamic features that are combined with construction details that render the assembly invertible for use on either side of the vehicle and easier to install than its prior art counterparts.

Abstract: A three-dimensional light reflection plate that can successfully prevent deformation of the light reflection plate, reduce initial cost and product cost, and facilitate increase in size and reflectance. The light reflection plate includes a bottom plate in which a plurality of mutually parallel slit holes are formed on a flat, light-reflective plate material and a mountain plate that is rectangular from a planar view of which a width direction cross-sectional shape is a mountain shape and in which insertion sections are formed in both width-direction end sections. The mountain plate is fixed to the bottom plate by the insertion sections of the mountain plate being inserted into the slit holes of the bottom plate.

Abstract: A light pulse multiprocessing unit has a half mirror and N delay elements, each having a refractive index n. The N delay elements are arranged on one side of the half mirror from one end of the half mirror toward the other end and have thicknesses ?, 2?, . . . , 2N?1? different from each other, where ? is the smallest thickness. The half mirror is placed in parallel in the proximity of an intermediate position between two mirrors and the N delay elements are arranged between one of the mirrors and the half mirror. Each of the N delay elements is a plane-parallel plate and is placed at an angle such that the direction of the normal line of the surface of the plane-parallel plate is different from a direction followed from one end of the half mirror toward the other end.

Abstract: A light beam emitted from a light source (11) impinges on the spherical surface (20a) of a collimator lens (20) substantially perpendicularly thereto. A light beam making a small angle to the optical axis impinges on the ellipsoid (20c) and then it is refracted. The ellipsoid (20c) converts light beams diverging from a light source located at the first focal point thereof into parallel light beams. A light beam making a large angle to the optical axis impinges on an ellipsoid (20b) and then it is reflected totally off the ellipsoid (20b). A light beam diverging from a light source located at the first focal point of the ellipsoid (20b) is converted into a light beam being focused on the second focal point thereof. An ellipsoid (20d) converts the light beams focused on the second focal point thereof into parallel light beams.

Abstract: A lamp holder is made by extrusion of aluminum. The lamp holder includes at least one recess for receiving an illuminator. The recess is defined by a mounting face, a first reflective face and a second reflective face. The mounting face is at 18 to 25 degrees from a horizontal plane. The first reflective face is at 120 to 130 degrees from a lower edge of the mounting face. The second reflective face is at 110 to 120 degrees from an upper edge of the mounting face.

Abstract: Polarization preserving front projection screens and diffusers provide optimum polarization preservation for stereoscopic 3D viewing, as well as improved light control for enhanced brightness, uniformity, and contrast for both 2D and 3D systems. Generally, the disclosed screens direct light from a projector toward viewers within a diffusion locus, while maintaining optimum gain characteristics. More specifically, light incident on a region of the front projection screen from a predetermined projection direction is reflected by an engineered surface to a predetermined diffusion locus after undergoing substantially single reflections. The engineered surface, comprised of generating kernels, is used to optimally diffuse illumination light into a range of viewing angles, within the diffusion locus, with suitable gain profile, while optimally preserving polarization for 3D applications.

Abstract: An optical-deflection accelerating device is provided. The device comprises an incident light source for generating an incident light-beam with a deflection speed, an emergent-light capturing device for capturing an emergent light-beam, and a reflective device which is a curved-surface reflective mirror for reflecting the incident light-beam to the emergent-light capturing device. When the incident light-beam enters to a reflective point on the curved-surface reflective mirror in sequence, an incident angle and a reflective angle are altered with locations of the reflective point on the curved-surface reflective mirror, and are increased with an increased curvature of the reflective point. When the incident light-beam is deflected with a tiny initial deflection angle, the reflective light-beam is deflected therewith and the deflection angle is enlarged. The curvature of the curved-surface reflective mirror can be adjusted to obtain different accelerated deflections.

Abstract: There is provided an optical element comprising an optical element body, a reflecting area and an optical passageway. The optical element body defines an axis of rotational symmetry. The reflecting area is disposed on the optical element body and adapted to be optically used in an exposure process. The optical passageway is arranged within the optical element body and allows light to pass the optical element body, the optical passageway being arranged eccentrically with respect to the axis of rotational symmetry.

Abstract: An image reading apparatus includes an integral scanning optical unit in which a light source device for illuminating an original placed on an original table, a plurality of mirrors for reflecting a light beam from the original and an imaging optical system for imaging the light beam reflected by the mirrors, upon a reading device, are integrally accommodated, wherein at least one mirror is so configured that the light beam is incident thereon twice or more, wherein, in a sub-scan section, reflection surfaces of the mirrors are disposed in a space at an original-reading-position side of a light entrance surface of the imaging optical system, and wherein the reflection surface of a mirror disposed at a position optically closest to the light entrance surface of the imaging optical system is placed at a position furthermost from the original table with respect to a direction of a normal thereto, as compared with the reflection surfaces of the remaining mirrors.

Abstract: An apparatus and method is provided, for combining two or more EUV (extreme ultra violet) sources for illumination of a reticle. According to the principles of the present invention two or more EUV sources are combined in a single illumination system, using multiple first mirror arrays, each of which is associated with a respective EUV source, and a single second mirror array defining a pupil, and configured to receive reflected EUV radiation from the plurality of first mirror arrays, and to illuminate the reticle. Preferably, the first mirror array associated with each EUV source has a fly's eye configuration, the single second mirror array has a fly's eye configuration, and a condenser is positioned between the single second mirror array and the reticle. The number of mirror elements in the second mirror array is equal to or greater than the total number of mirror elements in the first mirror array.

Abstract: An optical filter comprising a first substrate, a first mirror formed on the first substrate, a second substrate coupled to the first substrate, the second substrate including a concave portion, and a second mirror formed on the concave portion and facing the first mirror, wherein the first substrate includes a first portion located on the first mirror, a second portion located around the first portion, a third portion located around the second portion, and a fourth portion located around the third portion, wherein both a thickness of the second portion and a thickness of the fourth portion are equal to or smaller than a thickness of the first portion.

Abstract: A spotter mirror mountable to a reflector has a back, a front reflecting surface, and a locator. The locator facilitates locating the spotter mirror at a predetermined location on the reflector such that the back of the spotter mirror abuts the reflector.

Abstract: An imaging system for imaging an off-axis object field arranged in an object surface of the imaging system onto an off-axis image field arranged in an image surface of the imaging system while creating at least one intermediate image has: an optical axis; an in-line mirror group having an object side mirror group entry, an image side mirror group exit and a mirror group plane aligned transversely to the optical axis and arranged geometrically between the mirror group entry and the mirror group exit, the mirror group including: a first mirror having a first mirror surface for receiving radiation coming from the object surface in a first reflecting area asymmetric to the optical axis; at least one second mirror having a second mirror surface facing the first mirror surface for receiving radiation coming from the first mirror in a second reflecting area asymmetric to the optical axis; at least one of the first and second mirrors being a concave mirror having a concave mirror surface defining a mirror axis on the

Abstract: An all-reflecting, non-relayed optical system having an aperture stop and an optical axis and configured to provide images of objects. The system includes a positive power primary mirror configured to receive radiation from the objects, a negative power secondary mirror configured to receive the radiation reflected from the primary mirror and a positive power tertiary mirror configured to receive the radiation reflected from the secondary mirror. The system further includes a focal plane configured to receive the radiation reflected from the tertiary mirror and to form an image of the objects. The aperture stop of the optical system is located between the tertiary mirror and the image plane. Accordingly, the image plane may be cold shielded to prevent or reduce radiation reflected from the optical elements that interferes with the desired image.

Abstract: A laser system includes a first source and a second source for generating a first laser beam and a second laser beam, respectively, and a mirror arrangement including a first interleaving laser mirror with a high reflecting area configured to reflect the first laser beam and a first high transmitting area configured to transmit the second laser beam.

Abstract: A rear view mirror assembly is disclosed in which the mirror has a viewing section and an alignment section meeting to form a reflex angle. The alignment section is etched with a targeting image: a cross-hair or the side surface of the vehicle. When the targeting image is aligned with appropriate feature on the side of the vehicle, the reflex angle is such that the mirror is properly aligned. Also disclosed is a mirror assembly having viewing section and an alignment section with a clear protective outer layer a selective acceptance layer below the clear protective outer layer, and a colored substrate below the selective layer. When the vehicle operator can see the colored substrate through the selective acceptance layer, which transmits only normal light, the mirror is properly aligned.

Abstract: A core module for a water filter with multiple layers has an outer filtering barrel, an activated carbon rod and an inner filtering barrel. The activated carbon rod is mounted in a central channel of the outer filtering barrel. The inner filtering barrel is mounted in a central channel of the activated carbon rod. When the water is filtrated, the water flows through the outer filtering barrel, the activated carbon rod and the inner filtering barrel in sequence. When the activated carbon particles are dropped from the activated carbon rod, the inner filtering barrel blocks the activated carbon particles to keep the activated carbon particles from flowing out with the water. Therefore, the filtering water is kept clean.

Abstract: A flux of light entering a transparent medium L2 proceeds along a side view optical path A by way of the first transmissive surface 21 so as to be reflected to the side opposite to the image plane by the first reflective surface 22 and then to the image plane side by the second reflective surface 23 to form an optical path before going out from the transparent medium L2 to the outside at the image plane 5 side by way of the second transmissive surface 24 in the order of forward ray tracing and also along a direct view optical path B by way of third transmissive surface 25 to form another optical path before going out from the transparent medium L2 into the outside at the image plane 5 side by way of the fourth transmissive surface 26 also as viewed in the order of forward ray tracing.

Abstract: An image reading apparatus including a light source for illuminating an original, a plurality of mirrors for reflecting a light beam from the original illuminated by the light source, a reading device, an imaging optical system for imaging a light beam reflected by the mirrors, upon the reading device, and a scanning optical system unit which integrally accommodates theses components therein and moves in a sub-scan direction to read imagewise information of the original, wherein, in a sub-scan section, one mirror optically closest to the surface of the original is disposed in an end portion of the scanning optical system unit in the sub-scan direction, as compared with the other mirrors, and wherein the central portion of the reflection surface of one mirror optically closest to the original is disposed in a space between the central portion of the reflection surface of a mirror optically closest to the light entrance surface of the imaging optical system and central portions reflection surfaces of other mirr

Abstract: An exemplary directional light homogenizer includes a one-piece, hollow hexagonal cross-section tube. The tube has an internal highly light reflective surface. The tube defines a first end configured to receive a non-homogenous light from a light source and a second end configured to output homogenized light. At least one curved section is disposed between the first end and the second end, and the curved section has a curvature greater than zero degrees and less than one hundred eighty degrees. An output section of the tube is straight, has a finite length, and terminates at the second end.

Abstract: The invention relates to a microstructured technological system and, in particular, micromirror arrangements. The aim of the invention is to produce facade elements for buildings having large areas in square centimetres and above, at reduced cost. The entire micromirror arrangement can be produced as a flat, architectonically useable structural element in a modularly replicable manner. According to the invention, the control electronic system, which contains the logics which are controlled as mirror elements, is arranged in the centre of a control device at a specific, remote distance from which an addressing network is used to control the individual mirror elements or modules. Said addressing network is already integrated into the flat modules during production and to a large degree, in the form of printed lines. As a result, the necessity of incorporating silicon-based chip technology into the facade elements, which is expensive, is no longer necessary.

Abstract: To improve luminance of a backlight, a white reflective film having a coating layer containing spherical particles on at least one side of a white film, in which an absolute value of refractive index difference between the spherical particles and a binder resin forming the coating layer is 0.10 or less, and the spherical particles are nonporous is provided.

Abstract: Optical system for a telescope having independent optical arms adapted to collect light rays over a first cross sectional area and compress it into a second cross sectional area less than the first cross sectional area. Orthogonal mirror pairs of parabolic trough mirrors compress light in first one dimension and then the other dimension and feed the light into a focusing smaller telescope structure. The gathered light is kept parallel and its wavefront is kept in phase, allowing the telescope to have the diffraction limit of the collective aperture. The optical arms are independently adjustable to point the system toward different objects of interest and track them.

Abstract: A total length of members (11, 13, 15, 17, 19, 21, 23, 25) formed in an X-axis direction of a spring (1) is larger than a spring length of the spring (1) and larger than a total length of members (12, 14, 16, 18, 20, 22, 24) formed in a Y-axis direction. With this arrangement, spring constants of respective axes can be increased, and a spring constant in a direction R can be set appropriately and freely within a wider range.

Abstract: A mirror assembly including a mirror, a base and a flexible neck connecting the mirror and the base such that the neck can be manually manipulated to adjust the position of the base and the mirror relative to each other. The mirror assembly further includes a light source located on or adjacent to the mirror, and a power-source receiving receptacle located in the base, wherein the power-source receptacle cavity is electrically coupled to the light source.

Abstract: A device, system and method integrating forward and panoramic fields is disclosed, comprising: a primary reflector, comprising a convex surface in relation to the forward field, reflective on at least part of the convex surface; a secondary reflector, forward of the primary reflector relative to the forward field, reflective on at least part a surface thereof facing rearward toward the primary reflector; a primary reflector hole in the primary reflector, substantially centered about an optical axis of the apparatus; and a secondary reflector hole in the secondary reflector, substantially centered about the optical axis.

Abstract: A vehicular integrated mirror system is provided that is supported on a vehicle body that includes a door, and has an outside mirror disposed outside a vehicle compartment and an interior mirror disposed within the vehicle compartment at a position in the proximity of the outside mirror so that, in cooperation with the outside mirror, a vehicle rear field of vision is obtained, wherein a mirror holder retaining the outside mirror and the inside mirror is swingably supported on mirror support means mounted on the vehicle body in order to change the reflection angle of the two mirror relative to a vehicle driver, and the reflection angle of the outside mirror and the inside mirror is changed by remote drive means that makes the mirror holder swing by remote operation. This enables the reflection angle of the outside mirror and the inside mirror to be remotely controlled.

Abstract: An auxiliary side view mirror for attaching to an existing side view mirror of a motor vehicle. This auxiliary side view mirror includes a housing. The housing has an auxiliary mirror portion and a side view mirror interior housing adjacent the auxiliary mirror portion. The auxiliary mirror portion contains an auxiliary mirror and the side view mirror interior housing has an opening and an interior shape, size and contour corresponding to an exterior shape, size and contour of the existing side view mirror of the vehicle whereby the existing side view mirror of the motor vehicle fits within the side view mirror interior housing of the housing through the opening. A plurality of tabs are provided around the opening and the tabs extend towards the interior of the opening.

Abstract: A two-point imaging optical device utilizing an optical element that achieves a new type of imaging system, in which a two-point imaging optical element is provided with a plurality of mirrored surface portions arranged perpendicularly or at an angle close to perpendicular in a narrow interval between two parallel planes, which form an element plane, so as to be sandwiched between the two planes to form a flat panel shape, with the plurality of mirrored surface portions placed so as to be mutually isolated and parallel, or having an angle close to parallel between each mirrored surface portion, and an image of the subject of projection is formed in a space on the side of the element plane on which it has been placed, and another image of the subject of projection is formed in a space on the other side of the element plane.

Abstract: An optical system, used for scanning, forms an image using reflective optical surfaces. The system may be telecentric, and may form an image that is reduced in size as compared with the scanned original. Several image-forming optical channels may be combined to form a page-wide scanning array.

Abstract: An embodiment of a method of designing a grooved reflector comprises selecting two given wavefronts; and designing two surfaces meeting at an edge to form a groove such that the rays of each of the given wavefront become rays of a respective one of the given wavefronts after a reflection at each of the surfaces. Multiple grooves may be combined to form a mirror covering a desired area. A mirror may be manufactured according to the design.

Abstract: A multi-functional side rear view mirror for a vehicle for preventing blind spots for viewers. The multi-functional side rear view mirror includes a housing for mounting to the vehicle, a pair of mirrors disposed in the housing for viewing behind the vehicle, a pair of side marker lights disposed on the housing for continuously illuminating while the external light system of the vehicle is activated for preventing blind spots for the viewers, a turn signal light disposed on the housing for flashing while the turn signal system of the vehicle is activated for preventing blind spots for the viewers, and a brake light disposed on the housing for continuously illuminating while the brake light system of the vehicle is activated for preventing blind spots for the viewers.

Abstract: A modularized light-guiding apparatus and manufacturing method, which may make the light of a light source proceed at least twice light reflections of predetermined directions. The light-guiding apparatus includes a plurality of modularized reflection elements, which may be differentiated to several different types of reflection element. Each type of each reflection element all has substantially same adjoining device and edge size for providing to be adjoined and piled-up with another reflection element. But, the reflection element of different type individually has different number of reflection plane for providing the light to proceed different times of light reflection. It may determined the light reflection times and light-path length for the light-guiding apparatus, by choosing several different types of reflection element among plural reflection elements to proceed the piling-up for the light-guiding apparatus.

Abstract: A modularized light-guiding apparatus and manufacturing method, which may make the light of a light source proceed at least twice light reflections of predetermined directions. The light-guiding apparatus includes a plurality of modularized reflection elements, which may be differentiated to several different types of reflection element. Each type of each reflection element all has substantially same adjoining device and edge size for providing to be adjoined and piled-up with another reflection element. But, the reflection element of different type individually has different number of reflection plane for providing the light to proceed different times of light reflection. It may determined the light reflection times and light-path length for the light-guiding apparatus, by choosing several different types of reflection element among plural reflection elements to proceed the piling-up for the light-guiding apparatus.