Class / Patent application number | Description | Number of patent applications / Date published |
359634000 | Wavelength selective (e.g., dichroic mirror, etc.) | 50 |
20080218871 | MIRROR ASSEMBLY - A mirror assembly is described and which includes a semitransparent mirror, a circuit substrate positioned adjacent to the semitransparent mirror, and a first heater borne by the circuit substrate, and which is coupled with the source of electricity, and which is disposed in juxtaposed heat transmitting relation relative to the semitransparent mirror. | 09-11-2008 |
20080231960 | Optical Separating Filter - An optical separating filter separates impinging light into a first and a second part having different properties. The separating filter comprises reflective filters (FR) arranged in funnel shaped structures (F | 09-25-2008 |
20080239501 | COLOR-SEPARATION OPTICAL SYSTEM AND IMAGING APPARATUS - A curve representing a characteristic of a blue-light reflecting dichroic film DB and a curve representing a characteristic of a red-light reflecting dichroic film DR are configured to have shapes that track an ideal spectral characteristic of green. Accordingly, it is possible to obtain a characteristic approximated to the ideal spectral characteristic without using a trimming filter having a dichroic film in an exiting surface of a prism. Since it is not necessary to use the trimming filter having the dichroic film, it is possible to prevent ghost and flare from occurring due to the dichroic film of the trimming filter. Accordingly, it is possible to embody an imaging apparatus having the ideal spectral characteristic with ghost and flare being reduced. | 10-02-2008 |
20090046371 | COLOR SEPARATION/COMBINATION PRISM AND IMAGE-PROJECTION APPARATUS - A color separation/combination prism is disclosed which has an optical film arrangement capable of performing color separation, light analysis and color combination. The prism includes four prism members and at least five optical surfaces as outer surfaces thereof. Each of the prism members has at least three optical surfaces including two optical surfaces which intersect orthogonally with each other at a first side thereof. The four prism members are joined together such that the first sides of the prism members are adjacent to or contact each other. Joining portions of the four prism members are provided with wavelength-selective polarizing films. | 02-19-2009 |
20090128920 | DICHROIC MIRROR - 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) | 05-21-2009 |
20090147370 | NANOPARTICLE AND NANOCOMPOSITE FILMS - The use of an aerosol transport operation for producing a nanoparticle film or a nanocomposite film on a substrate, wherein the substrate is heated. | 06-11-2009 |
20090153977 | LIGHT PROJECTION APPARATUS AND LIGHT-MIXING MODULE THEREOF - A projection apparatus includes a first, a second and a third light sources, a first reflective element, a first and a second dichroic mirrors, a light-homogenizing element, a light valve and a projection lens. The first reflective element is configured to reflect the first light beam, and the first dichroic mirror is configured to reflect the second light beam and to transmit the first light beam transmitted from the first reflective element. The second dichroic mirror is configured to reflect the first and the second light beams transmitted from the first dichroic mirror and to transmit the third light beam. The light-homogenizing element is used for homogenizing the combined light beam, and the light valve is used for modulating the combined light beam to form an image beam. The projection lens is used for receiving and then projecting the image beam. | 06-18-2009 |
20090195881 | IMAGE DISPLAY APPARATUS AND PROJECTOR - An image display apparatus includes a light source that emits light-source light, an illumination system that makes the light-source light uniform, a color separation system that separates illumination light outputted from the illumination system into color light fluxes, color optical modulators illuminated with the color light fluxes separated by the color separation system, and an optical element having an element surface the film thickness distribution of which is configured in such a way that the film thickness changes in a non-uniform manner. | 08-06-2009 |
20090251789 | COLOR LIGHT COMBINER - For combining light from different light sources that are spatially apart, an optical system comprises a prism assembly that comprises a totally-internally-surface and a dichroic filter. The totally-internally-surface and the dichroic filter are configured for reflecting light of different colors or polarizations, so as to combine light of different polarization or colors into a single beam. | 10-08-2009 |
20090279181 | CO-PACKAGE DQPSK DEMODULATOR BY MICHELSON INTERFEROMETER - An interferometer includes a means for splitting, at a splitting location, an input light beam into a first beam and a second beam; and means for recombining, at a recombination location, the first beam and the second beam. The interferometer is designed such that the first beam will travel a first optical path length (OPL) from the splitting location to the recombination location, and the second beam will travel a second OPL from the splitting location to the recombination location and such that when the input light beam has been modulated at a data rate comprising a time interval, then the difference in optical path lengths between the first OPL and the second OPL is about equal to the time interval multiplied by the speed of light. | 11-12-2009 |
20090316274 | COMPOSITE OPTICAL DIVIDING DEVICE - A composite optical dividing device can receive a light beam, which is mixed with at least multiple wavelength ranges of light. The optical dividing device includes a first optical film plate and a second optical film plate. The first optical film plate has multiple micro-structure lenses in same shape, for deflecting and the incident light with a condense level. The second optical film plate has multiple periodic polygon structures, for receiving the deflected light and dividing constitutions of the light beam, according to the wavelength ranges. Each of the multiple ranges of light respectively travels toward a predetermined region on a plane. | 12-24-2009 |
20090323192 | Wavelength Separating Beamsplitter - A prism system is disclosed for splitting a broadband incoming light beam. In one embodiment, the broadband beam enters the prism system and is shifted laterally through a parallelogram shaped prism. The beam then encounters a first dichroic coating treated surface. The light that is reflected off of the surface strikes the internal wall of the prism to undergo total internal reflection within the prism. The beam exits the prism parallel to the original incoming broadband beam. The beam that passes through the dichroic surface reaches a second dichroic coating treated surface where a specified waveband of light is reflected while the remaining wavelengths pass through. The beam reflected by the second dichroic surface undergoes a total internal reflection and exits parallel to the incoming broadband beam. The light beam which passes through the second dichroic surface exits the prism parallel to the original incoming broadband beam. | 12-31-2009 |
20100007963 | Method and Apparatus for Optical Bandpass Filtering, and Varying the Filter Bandwidth - A path of travel for radiation extends to one optical element, then to another optical element, and then away from the latter. One of the optical elements is respectively reflective and non-reflective to radiation above and below a first wavelength, and the other is respectively reflective and non-reflective to radiation below and above a second wavelength. According to a different aspect, a path of travel for radiation extends to one of first and second optical elements, then to the other optical element, and then away from the latter. The first optical element is reflective and non-reflective to radiation on respective sides of a first wavelength, and the second optical element is reflective and non-reflective to radiation on respective sides of a second wavelength. The first optical element can tilt in relation to the path of travel to change the first wavelength. | 01-14-2010 |
20100290128 | OPTICAL MODULE - A plurality of prisms each has side surfaces that forms an angle of | 11-18-2010 |
20100296170 | Superposition method using a pair of stereo-isomeric micro electro mechanical systems (MEMSs) - DMDs (digital mirror devices) as currently produced by Texas Instruments show handedness with regard to mirror deflection axes and image raster. At present only one isomer (one hand-type) is produced, which we call the (L)DMD. For the superposition of (L)DMDs an additional folding is required in all arrangements of the state of the art, which results in sophisticated and expensive designs, e.g. the trichroic prism assembly (TPA) of 3-chip DMD-projectors. We uncover a superposition method using a pair of stereo-isomeric MEMSs (both the right-handed and the left-handed stereo-isomeric topologies are used). This eliminates the necessity of this previously required additional folding. As a consequence simplified and improved superposition systems can be designed. Minimal back focal length and symmetric designs lead to smaller size, lighter weight and reduced cost. | 11-25-2010 |
20100321786 | DEPTH OF FIELD EXTENSION FOR OPTICAL TOMOGRAPHY - An optical tomography system for viewing an object of interest includes a microcapillary tube viewing area for positioning the object of interest in an optical path including a detector. A motor is located to attach to and rotate a microcapillary tube. A device is arranged for transmitting broadband light having wavelengths between 550 nm and 620 nm into the microcapillary tube viewing area. A hyperchromatic lens is located to receive light transmitted through the microcapillary tube viewing area. A tube lens is located to focus light rays transmitted through the hyperchromatic lens, such that light rays from multiple object planes in the microcapillary tube viewing area simultaneously focus on the at least one detector. | 12-23-2010 |
20110116169 | Dichroic Filter Laser Beam Combining - Briefly, in accordance with one or more embodiments, a dichroic optic having a first side and a second side opposite to the first side, wherein the second side has an optical filter, wherein each of a light beam having a first wavelength, a second wavelength and a third wavelength enter, exit or reflect from the dichroic optic only from at least one of the first or second sides, wherein prior to incidence on the dichroic optic each of the light beams having the first, second and third wavelengths are non-collinear with each other, wherein the light beam having the first wavelength and the light beam having the second wavelength are substantially collinear within the dichroic optic, wherein the optical filter has a response capable of transmitting at least one of the light beam having the first wavelength and the light beam having the second wavelength, while reflecting the light beam having the third wavelength, and wherein the light beam having the first wavelength, the second wavelength, and the third wavelength are combined in a substantially collinear manner. | 05-19-2011 |
20110176219 | APPARATUS FOR COMBINING INDIVIDUAL LIGHT BEAMS OF DIFFERENT WAVELENGTHS TO FORM A COAXIAL LIGHT BUNDLE - An apparatus for combining individual light beams to form a coaxial light bundle. The apparatus has a plurality of coupling-in positions, the number of which corresponds to the number of light beams, and also at least one coupling-out position. It is suitable for generating a collimated beam bundle as a multicolour source for use in digital image generation. The apparatus includes an apparatus base body with the coupling-in positions for the light beams and with a coupling-out position for the light bundle and adjusting devices for coaxially orienting the individual light beams relative to the beam direction of the light bundle. The coaxial light bundle can optionally emerge as free beam at the coupling-out position or into an optical waveguide via connecting elements. | 07-21-2011 |
20110188125 | OPTICAL ELEMENT AND METHOD FOR MANUFACTURING THE SAME - An optical element includes: a first optical layer having a concavo-convex surface; a wavelength-selective reflective layer provided on the concavo-convex surface of the first optical layer; a second optical layer provided on the concavo-convex surface on which the wavelength-selective reflective layer is provided so as to fill the concavo-convex surface, and in the optical element described above, the wavelength-selective reflective layer includes a metal layer, a protective layer provided on the metal layer and containing a metal oxide as a primary component, and a high refractive index layer provided on the protective layer and containing a metal oxide other than zinc oxide as a primary component, and the wavelength-selective reflective layer selectively directionally reflects light in a specific wavelength band while transmitting light other than that in the specific wavelength band. | 08-04-2011 |
20110292514 | COLOR LIGHT COMBINER - For combining light from different light sources that are spatially apart, an optical system comprises a prism assembly that comprises a totally-internally-surface and a dichroic filter. The totally-internally-surface and the dichroic filter are configured for reflecting light of different colors or polarizations, so as to combine light of different polarization or colors into a single beam. | 12-01-2011 |
20120002296 | Optical Band Splitter/Combiner Device Comprising a Three-Arms Interferometer - A three-arm-Mach-Zehnder interferometer for splitting/combining first and second wavelength bands is provided, wherein the optical device includes first and second optical splitting/combining elements; a differential optical delay device comprising first, second and third optical paths; the first, second and third optical paths of the differential optical delay device are configured to introduce, at a wavelength λ | 01-05-2012 |
20120105967 | OPTICAL COMBINER FOR COMBINING MULTIPLE LASER BEAMS IN A FLOW CYTOMETER - Disclosed is an optical combiner for combining multiple laser beams in a flow cytometer. A dichroic beam combiner is used to combine a second laser beam with a first laser beam so that the two beams are collinear. A beam size adjuster is utilized to adjust the size and convergence/divergence of the second laser beam so that both laser beams focus in a vertical direction at the same location on a stream in the flow cytometer. A cylindrical lens with a vertically oriented axis in the focusable beam shaping optics can also be adjusted to adjust the location of the focus point of the two beams in the horizontal direction. Alignment is maintained with the opto-mechanical adjustments made on one laser beam relative to the other laser beam path. Additional beams can also be added to the optical path. | 05-03-2012 |
20120105968 | Compact Interdependent Optical Element Wavelength Beam Combining Laser System and Method - A Compact Interdependent Optical Laser System and Method is designed for use with wavelength beam combining (WBC) systems that utilize both slow-axis and fast-axis WBC. Multiple optical elements having individual and interdependent functionality allow for the system to compact reducing the overall footprint of the system. Additional, configurations incorporating the compact system described herein allow for high-power and brightness scaling. | 05-03-2012 |
20120120500 | Optical Element for Distributing Light - An optical element ( | 05-17-2012 |
20120154921 | OPTICAL BODY, WINDOW MEMBER, FITTING, SOLAR SHADING DEVICE, AND BUILDING - An optical body includes a first optical layer having a concave-convex surface, a wavelength selective reflecting layer formed on the concave-convex surface, and a second optical layer formed on the wavelength selective reflecting layer and embedding the concave-convex surface. The wavelength selective reflecting layer selectively directionally reflects light in a particular wavelength band while transmitting light other than the particular wavelength band therethrough. The concave-convex surface is made up of a plurality of triangular pillars arrayed in a one-dimensional pattern, and the triangular pillar has an apex angle α and a slope angle β, the apex angle α and the slope angle βsatisfying a predetermined relationship. | 06-21-2012 |
20120307370 | Method and Apparatus for Combining Light Sources in a Pump Laser Array - An apparatus for providing pump light of a first wavelength λ | 12-06-2012 |
20130033757 | BEAM COMBINER - A beam combiner includes a first lens and a second lens coated with specific optical films. The first color light beam enters the first lens via a first incidence surface with an incidence angle of Brewster's angle. The second color light beam enters the first lens via the second incidence surface with an incidence angle of zero degree. The third color light beam enters the second lens via the third incidence surface with an incidence angle of zero degree. The first, the second, and the third color light beams transmit in the same path after the splitting face to form the composite light beam and come out via an exit surface. | 02-07-2013 |
20130077176 | Spectral Image Sensor Device - A spectral image sensor device comprises a first optical system | 03-28-2013 |
20130077177 | Optical Splitting Device, Optical Multiplexing Device and Method, and Optical Add-Drop Multiplexer - Embodiments of the present invention provide an optical splitting device, an optical multiplexing device and method, and an optical add-drop multiplexer, which relate to the technical field of communications, and are invented for improving the performance and decreasing the cost. The optical splitting device includes a substrate, where an anti-reflective coating is disposed on an upper surface of the substrate and a filter membrane is disposed at a lower surface of the substrate; and further includes a light redirecting portion disposed opposite to the filter membrane. An optical signal is incident to the filter membrane at a first specified angle, a light wave of a first wavelength in the optical signal penetrates the filter membrane, so that the light wave of the first wavelength is separated from the optical signal. | 03-28-2013 |
20130120851 | COLOR SEPARATING OPTICAL SYSTEM AND IMAGE PICKUP APPARATUS INCLUDING THE SAME - A color separating optical system includes a first prism including a second surface for separating an beam into reflected and transmitted beams; and a second prism including a third surface disposed to have an air gap interposed between the third and second surfaces and a fourth surface for separating a beam from the third surface into reflected and transmitted beams. At least one of the second and third surfaces has a multi-layer film, and 0.7005-16-2013 | |
20130141794 | THREE DIMENSIONAL SUB-WAVELENGTH STRUCTURE WITH SURFACE PLASMON ENERGY MATCHING PROPERTIES - An apparatus including a three dimensional sub-wavelength structure for electromagnetic applications including a surface layer formed of a metal or semiconductor film, one or more additional layers stacked to the surface layer, one or more sub-wavelength apertures in the surface layer, and one or more cavities nearby the one or more sub-wavelength apertures. The size of each aperture is smaller than the wavelength of the electromagnetic field incident upon the three dimensional sub-wavelength structure. The one or more cavities provide accessibility for a dielectric material within and below each aperture. Each cavity may also contain at least one metal or semiconductor sub-wavelength particle. A method of fabricating a three dimensional sub-wavelength structure is also provided. | 06-06-2013 |
20130176627 | MIRROR ASSEMBLY FOR COMBINING VISIBLE LIGHTS WITH FILTER FUNCTION - A mirror assembly includes a first mirror and a second mirror. The first mirror passes a first color light therethrough, reflects a second color light and has an average transmittance (T | 07-11-2013 |
20130215517 | Multi-Wavelength Beam Combining System and Method - A system and method for decreasing the optical pathway length, varying brightness output quality, and stabilizing beams along the non-beam combining dimension in a WBC system. | 08-22-2013 |
20130321926 | System and Method for Separating a Main Pulse and a Pre-Pulse Beam from a Laser Source - A dichroic beam splitter module is disclosed for separating a main pulse laser beam from a pre-pulse laser beam each traversing a common beam path. In one embodiment, two dichroic elements are physically aligned along the beam path and are configured to pass the pre-pulse, a laser light having a first wavelength, to target material located near an irradiation site yet reflect the main pulse, a laser light having a second wavelength. The reflected main pulse is then further reflected by two reflective elements or mirrors from the first dichroic element to the second dichroic element and then on to the irradiation site. In alternative embodiments, the first mirror is deformable to alter beam characteristics of the reflected main pulse beam and the second mirror is adjustable to align the main pulse beam to the irradiation site. | 12-05-2013 |
20140029107 | SPATIALLY SPLITTING OR COMBINING RADIATION BEAMS - A method of spatially splitting a primary radiation beam ( | 01-30-2014 |
20140036375 | Selective Repositioning and Rotation Wavelength Beam Combining System and Method - A system and method for reconfiguring a plurality of electromagnetic beams to take advantage of various wavelength beam combining techniques. The reconfiguring of beams includes individual rotation and selective repositioning of one or more beams with respect to beam's original input position. | 02-06-2014 |
20140139929 | METHOD AND APPARATUS FOR COMBINING LIGHT SOURCES - An apparatus for combining light from multiple laser sources has a first laser array to emit beams of a first wavelength in parallel and in a first plane and a second laser array to emit beams of a second wavelength in parallel with emitted beams in the first laser array. A beam combiner on a transparent body has a rear surface and an incident surface at an oblique angle to the first plane. Intersection of the incident surface with the first plane is oblique to the emitted beams. The beam combiner has a first coating on the incident surface that intersects the first plane and transmits the first wavelength. A rear reflective coating reflects first and second wavelengths. A second coating on the incident surface is coplanar with the first coating and transmits the second wavelength and reflects the first wavelength. A third coating reflects first and second wavelengths. | 05-22-2014 |
20140146395 | WSS USING MULTIPLE TECHNOLOGY SWITCHING ELEMENTS - A wavelength selective switch for selectively switching optical wavelength components of an optical signal uses both LCoS and MEMs switching technologies to improve device performance. Specific performance improvements may include more ports, better spectral performance and isolation, improved dynamic crosstalk, more flexible attenuation options, integrated channel monitoring and compressed switch heights. | 05-29-2014 |
20140168785 | System and Method for Combining Light Beams - An optical system and method for combining multiple beams along a single light path is disclosed. In a preferred embodiment, a plurality of bandpass filters are arranged about the sides of a regular pentagon, the band pass filters being reflective of light wavelengths outside of the bandpass range. A plurality of light sources are positioned such that light from a source passes through an associated bandpass filter, preferably at an angle of about 18°. Light from the first light source passes out of the pentagonal housing after passing through the filter. Light from the other light sources are reflected off of the interior surfaces filters so as to combine with the light from the first light source. | 06-19-2014 |
20140293436 | OPTICAL ELEMENT, WINDOW MATERIAL, FITTING, SOLAR SHADING DEVICE, AND BUILDING - An optical element is provided with an optical layer in which a concavo-convex surface is formed on the surface thereof, and a wavelength-selective reflection layer formed on the concavo-convex surface. The wavelength-selective reflection layer directionally reflects light having a specific wavelength band selectively, while transmitting light having wavelength bands other than the specific wavelength band. The concavo-convex surface is provided with a plurality of first structural elements that are extended in a first direction within the surface of the optical layer and a plurality of second structural elements that are extended in a second direction within the surface of the optical layer, and placed to be spaced apart from each other, with the first direction and the second direction intersecting with each other. | 10-02-2014 |
20140307325 | FILTER WHEEL - An improved filter wheel is disclosed, through embodiments, that comprises a plurality of reflector support structures formed as a unitized structure with a circular base member. In some embodiments, the filter wheel further comprises a plurality of light sources mounted on the filter wheel. | 10-16-2014 |
20140340760 | BEAM COMBINING DEVICE FOR A LIGHT-SOURCE DEVICE - A beam combining device for combining light from a first light source and light from a second light source of a light-source device for a medical apparatus includes a body made of a transparent material, a face which reflects in at least either a dichroic or polarization-dependent manner and is situated in or on the body, which face is transparent to light having a first spectrum or a first polarization and reflects light having a second spectrum or a second polarization, and a light-entrance face on the body, which light-entrance face is provided and arranged so that light enters the beam combining device through the light-entrance face. At least either the light-entrance face or the face reflecting in a dichroic or polarization-dependent manner is curved. | 11-20-2014 |
20150009576 | SYSTEM, METHOD AND APPARATUS TO PROVIDE LASER BEAMS OF TWO OR MORE WAVELENGTHS - A system, apparatus, and method may provide laser beams of two or more wavelengths from diode pumped solid-state laser sources ( | 01-08-2015 |
20150070774 | WAVELENGTH-CONTROLLED DIODE LASER MODULE WITH EXTERNAL RESONATOR - A diode laser module includes a laser diode ( | 03-12-2015 |
20150116838 | OPTICAL MULTIPLEXER AND DEMULTIPLEXER AND A METHOD FOR FABRICATING AND ASSEMBLING THE MULTIPLEXER/DEMULTIPLEXER - Known semiconductor wafer process technologies are used to manufacture an optical MUX/DeMUX with very precise dimensional control. The manufacturing process eliminates the need to polish optical surfaces of the MUX/DeMUX, which reduces the overall manufacturing costs and the amount of time that is required to manufacture the MUX/DeMUX. | 04-30-2015 |
20150146302 | LIGHTING DEVICE - A lighting device may include at least one light source arrangement for generating primary light; at least one light wavelength conversion element for converting primary light into secondary light; and a filter apparatus disposed optically downstream of the at least one light wavelength conversion element and serving for filtering out primary light. The at least one light source arrangement and the at least one light wavelength conversion element are embodied or correspondingly embodied light directing means are provided in such a way that part of the primary light generated by the at least one light source arrangement impinges on the at least one light wavelength conversion element and part of the primary light generated by the at least one light source arrangement is directed past the at least one light wavelength conversion element. | 05-28-2015 |
20150309225 | SPATIAL AND SPECTRAL FILTERING APERTURES AND OPTICAL IMAGING SYSTEMS INCLUDING THE SAME - A filter includes a central filter region, the central filter region to transmit a first wavelength range, a peripheral filter region, the peripheral filter region to block a second wavelength range, and a transition filter region between the central and peripheral filter regions, the transition filter region to transmit or block the second wavelength range differently than the second wavelength range is to be transmitted or blocked in the central and peripheral filter regions. More generally, there may be “N” regions and up to N-1 transition regions. | 10-29-2015 |
20150331245 | WAVELENGTH BEAM COMBINING LASER SYSTEMS WITH MICRO-OPTICS - In various embodiments, wavelength beam combining systems feature multiple beam emitters each emitting an individual beam, as well as multiple micro-optics arrangements each disposed optically downstream from a beam emitter to intercept the beam emitted thereby and direct the beam toward a dispersive element for combination into a multi-wavelength output beam. | 11-19-2015 |
20160139416 | COLOR MIXING DEVICE AND DISPLAY DEVICE - A color mixing device and a display device are configured to represent the color white in a consistent fashion, even in low-luminance areas. These devices are provided with: a red light source for outputting red light at optical intensity in response to a first current presented thereto; a green light source for outputting green light at optical intensity in response to a second current presented thereto; a blue light source for outputting blue light at optical intensity in response to a third current presented thereto; and a color mixing means for color mixing of the red light, the green light, and the blue light together. A light attenuating part transmits or reflects the blue light, bringing about attenuation and advance thereof in the output direction. The blue light output by the blue light source is attenuated to a greater extent than the light of the other colors during output. | 05-19-2016 |
20180024337 | COLOR CORRECTING COLLIMATION OF LIGHT FROM A COLOR OVER POSITION LIGHT SOURCE | 01-25-2018 |