Class / Patent application number | Description | Number of patent applications / Date published |
359201100 | With multiple scanning elements (e.g., plural lenses, lens and prism, etc.) | 84 |
20090073525 | DISPLAY DEVICE - A display device includes a laser light source, refraction means for refracting a laser beam emitted from the laser light source, and scan means for scanning the refracted laser beam by driving the refraction means. Further, in the display device, the scan means includes first scan means and second scan means that change a position of the refraction means with respect to the laser light source along two directions orthogonal to each other. Further, the refraction means includes first refraction means driven by the first scan means and second refraction means driven by the second scan means. | 03-19-2009 |
20090103156 | IMAGE FORMING APPARATUS WITH LASER SCANNING DEVICE AND METHOD OF ALIGNING THE LASER SCANNING DEVICE - An image forming apparatus includes a light source to emit a laser beam; a resonant scanning mirror, including a reflection surface to reflect the laser beam emitted from the light source, to scan the reflected laser beam by oscillating the reflection surface; at least one detector to detect the reflected laser beam during the scanning of the reflected laser beam, and generate a synchronizing signal each time the reflected laser beam is detected; and at least one light selection unit to restrict a path over which the reflected laser beam is incident on the at least one detector to a predetermined path. | 04-23-2009 |
20090135460 | High-Speed Multi-Dimensional Beam Scanning System With Angle Amplification - A beam-steering system having high positional resolution and fast switching speed is disclosed. Embodiments of the beam-steering system comprise a diffraction limited optical system that includes a reflective imager and two controllably rotatable MEMS elements. The optical system is characterized by a folded optical path, wherein light propagating on the path is incident on each MEMS element more than once. Each MEMS element imparts an optical effect, such as angular change, on the output beam. By virtue of the fact that the optical system is multi-bounce optical system, the optical effect at each MEMS element is multiplied by the number of times the light hits that MEMS element. | 05-28-2009 |
20090141327 | System and Method for Dynamic Display System Illumination - A system and method for increasing display brightness in laser illuminated display systems. An illumination source comprises a light source to produce colored light and a scanning optics unit optically coupled to the light source. The scanning optics unit scans the colored light along a direction orthogonal to a light path of the illumination source. The scanning optics unit comprises a diffuser to transform the colored light in beams of colored light, a scan optics element positioned in the light path after the diffuser, the scan optics element to move beams of colored light in a direction orthogonal to the light path with distinct beams of colored light separated by unilluminated space, and a lens element positioned in the light path after the scan optics element, the lens element to convert an angular refraction of the beams of colored light into a spatial deflection. | 06-04-2009 |
20090195848 | Optical Pattern Generators Using Axicon Segments - Optical pattern generators use rotating reflective axicon segments to produce images that can have different dimensions along the pattern direction compared to the cross pattern direction. Examples include both single axicon pattern generators and dual axicon pattern generators that independently control the image space relative aperture and thereby control the image dimensions in two orthogonal directions. | 08-06-2009 |
20090273822 | Retinal scanning display with exit pupil expanded by optics offset from intermediate image plane - A retinal scanning display device is disclosed which is configured to include: a light source emitting a light beam; a scanner scanning onto a viewer's retina the light beam emitted from the light source; a light exit at which the light beam scanned by the scanner exits the retinal scanning display device; and a pupil expanding element operable to expand an exit pupil of the retinal scanning display device. The pupil expanding element may be disposed at a position which is offset from an intermediate image plane occurring between the light source and the light exit, along and within an optical path defined between the light source and the light exit. | 11-05-2009 |
20100027089 | Optical scanner - An optical scanner for providing a deviation of electromagnetic radiation wherein the deviation varies in time. At least a first Risley pair has a first pair of optical elements and a second Risley pair has a second pair of optical elements. The optical elements in the first Risley pair are arranged to counter-rotate at a first rotation rate. The optical elements of the second Risley pair are arranged to counter-rotate at a second rotation rate in a manner so that a desired time dependency of the deviation of the radiation is obtained. | 02-04-2010 |
20100039687 | Apparatus for Performing Confocal Endoscopy - A method for manufacturing a microscanner having a micro mirror is disclosed. Initially, a two-axis self-aligned vertical comb-drive microscanner is fabricated from a bonded silicon-on-insulator-silicon (SOI) silicon wafer. By depositing a thin film of aluminum on the surface, a SOI silicon wafer can provide about 90% reflectivity at 633 nm. A 2.5 μm misalignment tolerance can be achieved for the critical backside alignment step. As a result, confocal images with 1 μm resolution can be acquired using a microscanner having SOI silicon wafer mirrors. | 02-18-2010 |
20100245957 | Two-Mirror Scanning System - A scanning beam projection system includes a two-mirror scanning system. One mirror scans in one direction, and a second mirror scans in a second direction. A fast scan mirror receives a modulated light beam from a fold mirror and directs the modulated light beam to a slow can mirror. The fold mirror may be formed on an output optic or may be formed on a common substrate with the slow scan mirror. | 09-30-2010 |
20100277780 | ROTATING MIRRORED STILE FOR USAGE WITHIN A MIRROR LABYRINTH - A process for enhancing an illusion created by a mirror labyrinth containing a series of interreflective mirrors includes the placement of a rotatable mirrored stile rotating about a vertical axis within the mirror labyrinth to interact with the series of interreflective mirrors to enhance the illusion created by the mirror labyrinth. The rotatable mirrored stile preferably has a motor drive mechanism mountable to a floor or ceiling of a mirror maze. A polygonal post is mounted to the drive mechanism to define a rotational axis with the post defining from two to eight rotationally degenerate faces. At least one of the rotationally degenerate faces is mirrored. | 11-04-2010 |
20110051211 | Pattern generation systems and high bandwidth focus control system with suppressed reaction forces and noise - A pattern generation system includes an optical system and a rotor. The optical system is configured to project a laser image onto an optical scanner. The rotor has a plurality of optical arms arranged at a first angle relative to one another, and further includes the optical scanner. The laser image is sequentially reflected by the optical scanner into each of the plurality of optical arms of the rotor to generate a pattern on a workpiece. | 03-03-2011 |
20110286066 | METHOD AND DEVICE FOR SCANNING LIGHT - A method of scanning a light beam is disclosed. The method comprises scanning the light beam along a first axis and scanning the light beam along a second axis, such that a functional dependence of the scanning along the first axis is substantially a step-wave, and a functional dependence of the scanning along the second axis is other than a step-wave. | 11-24-2011 |
20110304896 | PLASTIC OPTICAL ELEMENT, OPTICAL SCANNER INCLUDING THE PLASTIC OPTICAL ELEMENT, AND IMAGE FORMING APPARATUS INCLUDING SAME - A plastic optical element for focusing light to a target includes a first lens and a second lens. The first lens includes an incident surface, a projection surface opposite the incident surface, and a non-optical surface through which light does not pass and that includes a non-transfer portion. At least one light beam passes from the incident surface to the projection surface. The second lens includes an incident surface, a projection surface opposite the incident surface, and a non-optical surface through which light does not pass and that includes a non-transfer portion disposed opposite the non-optical surface of the first lens. At least one light beam passes from the incident surface to the projection surface. The non-transfer portions of the first lens and the second lens are portions on which no surface is transferred from a surface of a mold used to form the plastic optical element. | 12-15-2011 |
20120002260 | OPTICAL SCANNING APPARATUS AND IMAGE FORMING APPARATUS - The present invention provides an optical scanning apparatus at least including two optical scanning units that freely rotate about a rotation shaft and are disposed in parallel to the rotation shaft; two light sources provided for each optical scanning unit in relation to the optical scanning unit; and four primary mirrors provided respectively opposite and sandwiching the optical scanning unit, and the mirrors reflecting the light from the light source that is scanned by the optical scanning unit, wherein the first optical path that extends from a first optical scanning unit to one primary mirror that corresponds to the first optical scanning unit and a second optical path that extends from a second optical scanning unit to one primary mirror that corresponds to the second optical path are formed to overlap in a vertical orientation on a sectional surface including both rotation shafts of the two optical scanning units. | 01-05-2012 |
20120092738 | Scanning Platform Having Asymmetric Flexures - Briefly, in accordance with one or more embodiments, a scanning platform to scan a beam as a projected image comprises a frame and a scanning mirror supported by a flexure coupled to the frame of the scanning platform. The flexure has an asymmetric structure comprising a longer flexure arm and a shorter flexure arm to locate the scanning mirror at a position offset from a center of the frame. The resonant frequency of oscillation of the scanning mirror may be maintained or otherwise determined by selecting an appropriate cross-sectional area of the longer flexure arm or the shorter flexure arm, or combinations thereof. | 04-19-2012 |
20120134000 | TWO-DIMENSIONAL SCANNING DEVICE - A two-dimensional scanning device possesses: a light source for emitting light; a mirror for scanning on a test surface in the X direction; a mirror for scanning on the test surface in the Y direction; a lens which has different powers in relation to the X direction and the Y direction; and a lens which has different powers in relation to the X direction and the Y direction. The mirrors are arranged between the light source and a lens group including the lenses. | 05-31-2012 |
20120224241 | ERECTING EQUAL-MAGNIFICATION LENS ARRAY PLATE, OPTICAL SCANNING UNIT, IMAGE READING DEVICE, AND IMAGE WRITING DEVICE - An erecting equal-magnification lens array plate includes: a first lens array plate provided with a plurality of first lenses systematically arranged on a first surface and a plurality of second lenses systematically arranged on a second surface opposite to the first surface; and a second lens array plate provided with a plurality of third lenses systematically arranged on a third surface and a plurality of fourth lenses systematically arranged on a fourth surface opposite to the third surface. The first lens array plate and the second lens array plate form a stack such that the second surface and the third surface face each other to ensure that a combination of the lenses aligned with each other form a coaxial lens system. A plurality of V grooves are formed in an area between adjacent second lenses on the second surface in the erecting equal-magnification lens array plate. | 09-06-2012 |
20120224242 | ERECTING EQUAL-MAGNIFICATION LENS ARRAY PLATE, OPTICAL SCANNING UNIT, IMAGE READING DEVICE, AND IMAGE WRITING DEVICE - An erecting equal-magnification lens array plate includes a first lens array plate and a second lens array plate provided opposite to each other, each of the first and second lens array plates being formed with a plurality of lenses on both sides thereof. The first lens array plate is provided with a first lens-to-lens distance determining part. The second lens array plate is provided with a second lens-to-lens distance determining part. The distance between opposite lenses is determined by the contact between the first lens-to-lens distance determining part and the second lens-to-lens distance determining part. | 09-06-2012 |
20120229878 | ERECTING EQUAL-MAGNIFICATION LENS ARRAY PLATE, OPTICAL SCANNING UNIT, IMAGE READING DEVICE, AND IMAGE WRITING DEVICE - An erecting equal-magnification lens array plate includes: a first lens array plate provided with a plurality of first lenses arranged on a first surface and a plurality of second lenses arranged on a second surface; and a second lens array plate provided with a plurality of third lenses arranged on a third surface and a plurality of fourth lenses arranged on a fourth surface. The first and second lens array plates are stacked. An intermediate light-shielding member provided with a plurality of intermediate through holes is between the first lens array plate and the second lens array plate. The intermediate through hole is formed such that the hole diameter is progressively smaller in a tapered fashion away from the second surface toward the third surface. A plurality of V grooves are formed in an area between adjacent second lenses on the second surface. | 09-13-2012 |
20120257267 | SCANNING DEVICE, IMAGE DISPLAY DEVICE, AND METHOD FOR CONTROLLING IMAGE DISPLAY DEVICE - A scanning device that scans a beam emitted from a light source, includes: a beam condensing unit that condenses the beam emitted from the light source; a beam diverging unit that is arranged on an output side of the beam condensing unit, and diverges the beam condensed by the beam condensing unit; a first scanning unit that is arranged between the beam condensing unit and the beam diverging unit, and scans the beam condensed by the beam condensing unit; and a moving unit that moves at least one of the beam condensing unit and the beam diverging unit along respective optical axis directions thereof, in accordance with a scan angle of the first scanning unit. | 10-11-2012 |
20130003154 | MULTIBEAM SCANNING DEVICE - A multibeam scanning device, comprising: a plurality of first optical systems, each of the plurality of optical systems including a light source unit configured to emit a non-collimated light beam, and an optical element having a predetermined power and having an optical effect on the laser beam; a second optical system arranged on a downstream side of the plurality of first optical systems, including a first deflector on which light beams emitted by the plurality of first optical systems are incident, the first deflector being to deflect the laser beams, and a common optical system configured to change degree of divergence of each of the plurality of light beams; and an optical path shifting system configured to translate an incident optical path of the light beam which is emitted by the light source and incident on the optical element is provided. | 01-03-2013 |
20130070322 | LASER SCANNING SYSTEM EMPLOYING AN OPTICS MODULE CAPABLE OF FORMING A LASER BEAM HAVING AN EXTENDED DEPTH OF FOCUS (DOF) OVER THE LASER SCANNING FIELD - A laser scanning system having a laser scanning field, and a laser beam optics module with an optical axis and including: an aperture stop disposed after a laser source for shaping the laser beam to a predetermined beam diameter; a collimating lens for collimating the laser beam produced from the aperture stop; an apodization element having a first and second optical surfaces for extending the depth of focus of the laser beam from the collimating lens; and a negative bi-prism, disposed after the apodization element, along the optical axis, to transform the energy distribution of the laser beam and cause the laser beam to converge to substantially a single beam spot along the far-field portion of the laser scanning field, and extend the depth of focus of the laser beam along the far-field portion of the laser scanning field. | 03-21-2013 |
20130100514 | IMAGING ELEMENT ARRAY AND IMAGE FORMING APPARATUS - According to one embodiment, there is provided an imaging element array including an imaging element group in which a plurality of imaging elements are aligned, each of the imaging elements including an integrally molded input portion, an output portion, and a reflective portion, collecting light input to the input portion, reflecting the light by the reflective portion near a position where light flux is downsized, and outputting the reflected light from the output portion to form an image at an image point, and an inhibiting portion which is formed around the reflected portion in the imaging element group to inhibit light other than the light reflected by the reflective portion from traveling to the output portion. | 04-25-2013 |
20130222875 | PROJECTION DISPLAY APPARATUS - Provided is a projection display apparatus that enlarges and projects an image. The projection display apparatus includes: semiconductor lasers ( | 08-29-2013 |
20130250385 | Laser with Integrated Multi Line or Scanning Beam Capability - A method and system for providing illumination is disclosed. The method may include providing a laser having a predetermined wavelength; performing at least one of: beam splitting or beam scanning prior to a frequency conversion; converting a frequency of each output beam of the at least one of: beam splitting or beam scanning; and providing the frequency converted output beam for illumination. | 09-26-2013 |
20130265627 | LASER SCANNING OPTICAL SYSTEM - In a laser scanning optical system, at least one of one or more scanning optical elements is made of a material having a photoelastic coefficient equal to or greater than 20×10 | 10-10-2013 |
20140362426 | Image Rotation Compensation for Multiple Beam Material Processing - An image compensated multi-beam system includes a beam splitter configured to receive an input light beam and split the input light beam into a plurality of processing light beams, beam scanning optics configured to receive the plurality of processing light beams and to scan the beams at a target, and an image compensation subsystem configured to selectively adjust the rotation of an image of the plurality of processing light beams at the target. A method for compensating a multi-beam image includes splitting an input light beam into a plurality of processing light beams with a beam splitter, scanning the plurality of processing light beams across a target with beam scanning optics, and selectively adjusting the rotation of an image of the plurality of processing light beams at the target. | 12-11-2014 |
20150062678 | MULTI-LASER PROJECTION DEVICE AND CORRESPONDING PRODUCTION METHOD - A multi-laser projection device includes: a plurality of first assemblies, each including a fixed assemblage of a respective laser diode and an associated first collimator lens; a second assembly that forms a fixed assemblage of a beam combiner and a respective second collimator lens that is fastened on an entry surface of the beam combiner and that appertains to a respective laser diode; and a deflection unit. The plurality of first assemblies, the second assembly, and the deflection unit are mounted in a common housing so as to be adjusted to one another. | 03-05-2015 |
359201200 | Reflective element (e.g., mirror, reflector, etc.) | 37 |
20090097089 | Three-dimensional light ray input apparatus - A three-dimensional input apparatus includes a lens L | 04-16-2009 |
20090141328 | OPTICAL SYSTEM, IMAGE FORMING APPARATUS, AND CONTROL METHOD THEREOF - An image forming apparatus performs multi-color image formation using a plurality of scanning type optical devices which deflect and scan an optical beam using a rotating polygonal mirror. The image forming apparatus includes, for example, a detecting unit that detects a phase of rotating speed unevenness of rotating polygonal mirrors respectively provided in the plurality of scanning type optical devices, and an adjusting unit that adjusts, based on a phase of rotating speed unevenness detected for each rotating polygonal mirror, the rotating speed of each rotating polygonal mirror to reduce the phase differences between the phases. | 06-04-2009 |
20100027090 | SCANNING APPARATUS - A scanning apparatus operable in the microwave, mm-wave, sub mm-wave (TeraHerz) and infrared ranges comprises a primary drum ( | 02-04-2010 |
20100091350 | METHOD FOR CONTROLLING IMAGE FORMING APPARATUS - An image forming apparatus that previously rotates a polygonal mirror drive motor before starting a job and forms a latent image by using an optical scanning unit including the polygonal mirror drive motor is provided. The image forming apparatus includes a control unit configured to perform control such that, in the determination of the presence or absence of each of color toners before a previous rotation is started, if it is determined that any one of the color toners is absent, only the polygonal mirror drive motor corresponding to a black toner is previously rotated. | 04-15-2010 |
20100097679 | OPTICAL SCANNING DEVICE, METHOD OF ADJUSTING THE SAME, AND IMAGE FORMING APPARATUS - A coupling optical system couples a light beam emitted from a light source that includes a two-dimensional array of light-emitting elements, including a first optical element having a positive power and a second optical element that has a negative power and receives the light beam passed through the first optical element. An incident surface and an output surface of the second optical element are concave. An absolute value of a paraxial curvature radius of the incident surface is larger than that of the output surface. A scanning optical system focuses the light beam that passed through the coupling optical system and deflected by a deflector on the target surface. | 04-22-2010 |
20100118365 | Reflective Optical Scanning System Having Minimized Aberration - The present invention is a scanning system having spherical mirrors to operate a two-dimensional scanning. Aberration owing to oblique incident light is compensated to reach diffraction limit. With proper metallic coating, the present invention uses a wavelength from ultra-violet light to tera-hertz wavelength | 05-13-2010 |
20100142021 | POST-OBJECTIVE SCANNING BEAM SYSTEMS - Scanning beam systems, apparatus and techniques in optical post-objective designs with two beam scanners for display and other applications. | 06-10-2010 |
20100157404 | LASER TREATMENT APPARATUS AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A laser treatment apparatus is provided which is capable of irradiating a laser beam to the position where a TFT is to be formed over the entire surface of a large substrate to achieve the crystallization, thereby forming a crystalline semiconductor film having a large grain diameter with high throughput. A laser treatment apparatus includes a laser oscillation device, a lens for converging a laser beam, such as a collimator lens or a cylindrical lens, a fixed mirror for altering an optical path for a laser beam, a first movable mirror for radially scanning a laser beam in a two-dimensional direction, and an fθ lens for keeping a scanning speed constant in the case of laser beam scanning. These structural components are collectively regarded as one optical system. A laser treatment apparatus shown in FIG. | 06-24-2010 |
20100277781 | ROTATING MIRRORED STILE FOR USAGE WITHIN A MIRROR LABYRINTH - A winged rotatable mirrored stile is provided having a post mounted to define a vertical rotational axis in a mirror labyrinth. A plurality of wings extends radially from the post with each of the wings, at least one wing face supporting a mirror. | 11-04-2010 |
20110002024 | LASER CONFOCAL SCANNING MICROSCOPE AND METHODS OF IMPROVING IMAGE QUALITY IN SUCH MICROSCOPE - According to a first embodiment the invention provides for increasing the throughput and reducing the striping due to imperfections in the microlens and/or confocal aperture arrays of a Laser Confocal Scanning Microscope by increasing the number of repeat patterns in the microlens and confocal aperture arrays to more than one, and incorporating an intensity modulation function that ensures constant integrated image intensities at the image detector independent of the instantaneous speed of scanning. According to a second embodiment the invention provides for reducing the striping in a Laser Confocal Scanning Microscope by introducing a second galvanometer mirror such that the emitted laser light beam is descanned at the image (sample) plane. According to embodiments three to five, striping in a Laser Confocal Scanning Microscope is also reduced by destroying coherency in the emitted light beam by insertion of a small angle diffuser, by flattening the Gaussian intensity distribution of the emitted laser light beam and changing the characteristics of the beam expander. According to embodiment six the invention provides for changing the degree of confocality of a Laser Confocal Scanning Microscope by inserting a mechanism that offers a range of selectable confocal aperture sizes. | 01-06-2011 |
20110013245 | Image display device, head-mounted display, and light beam expanding device - Disclosed herein is an image display device including a light source and a scanner. The scanner includes (a) a first mirror on which a light beam emitted from the light source is incident, (b) a first light deflector on which the light beam output from the first mirror is incident and that outputs collimated light forming a first output angle depending on a first incident angle of the light beam in association with the pivoting of the first mirror, (c) a second mirror on which the collimated light output from the first light deflector is incident, and (d) a second light deflector on which the collimated light output from the second mirror is incident and that outputs collimated light forming a second output angle depending on a second incident angle of the collimated light in association with the pivoting of the second mirror. | 01-20-2011 |
20110134499 | LASER PROJECTOR - A two-dimensional image is displayed on a screen (SC) by scanning the screen (SC) two-dimensionally with light beams from a laser light source ( | 06-09-2011 |
20110205610 | OPTICAL SCANNING APPARATUS AND IMAGE FORMING APPARATUS PROVIDED WITH THE SAME - The present invention is an optical scanning apparatus provided with a light source, an optical deflector that reflects and deflects a light beam from the light source, one or more lenses through which the light beam reflected by the optical deflector passes, a reflective mirror group which guides the light beam having passed through the lens, and an image bearing member on which the light beam having passed through the reflective mirror group forms an image, in which the reflective mirror group disposed in accordance with the light source is configured by including at least a third reflective mirror that reflects the light beam having passed through the lens toward the image bearing member, and the third reflective mirror and the image bearing member are arranged opposing each other across an optical path reflected by the optical deflector and passing through the lens. | 08-25-2011 |
20110249311 | Method and Device for Dynamically Shifting a Light Beam with Regard to an Optic Focussing the Light Beam - For dynamically shifting a light beam ( | 10-13-2011 |
20110317233 | OPTICAL DEVICE, IMAGE DISPLAY APPARATUS AND HEAD-MOUNTED DISPLAY UNIT - Disclosed herein is an image display apparatus, including: a light source; and a scanning section adapted to scan a light beam emitted from the light source; the scanning section including (a) a first mirror, (b) a first light deflection section, (c) a second mirror, and (d) a second light deflection section; the second light deflection section including an external light receiving face; the second light deflection section having a plurality of translucent films provided in the inside thereof; the translucent films having a light reflectivity R | 12-29-2011 |
20120092739 | Optical Pattern Generator Using Multiple Reflective Surfaces - An optical pattern generator uses reflection from multiple (e.g., two) internal mirror surfaces mounted on a rotating support structure. | 04-19-2012 |
20120127552 | MICROSCOPE APPARATUS - Illuminating light is two-dimensionally scanned without changing the ability to focus the illuminating light on a specimen. Provided is a microscope apparatus including a spatial light modulator that modulates the wavefront of illuminating light; a scanner that two-dimensionally scans the illuminating light by pivoting two mirrors; a relay optical system that relays an image in the scanner to a pupil position of an objective optical system; and a beam-shift mechanism that moves rays of the illuminating light between the modulator and the objective optical system in response to pivoting of the mirrors. The beam-shift mechanism moves the rays such that the image at the pupil position, when assuming that the mirrors are stationary, is moved in the direction opposite to the direction in which the image relayed to the pupil position by the relay optical system, when assuming that the mirrors are pivoted with the rays fixed, is moved. | 05-24-2012 |
20120229879 | MIRROR CASCADE FOR BUNDLING A PLURALITY OF LIGHT SOURCES AND A LASER-SCANNING MICROSCOPE - A mirror cascade for the adjustment-free bundling of a plurality of light sources to be coupled into the beam path of a laser scanning microscope, comprising a beam combiner housing in which the mirror cascade is located, wherein the beam combiner housing can be either mounted directly on a scanning head of a laser scanning microscope and has a direct optical connection thereto or can be mounted on a microscope housing and has an optical connection thereto or is directly arranged in the scanning head. The invention further relates to a laser scanning microscope with such a mirror cascade. | 09-13-2012 |
20130083380 | Laser Scanning optical device - In an oblique-incidence optical system, a pair of optical beams are incident from the deflection section on an optically anisotropic common scanning lens. First and second individual scanning lenses are optically anisotropic and on which the one and the other of the pair of optical beams are respectively incident from the common scanning lens. Light sources are arranged such that their respective planes of polarization are symmetrical to each other. The first and second individual scanning lenses are arranged so as to be symmetrical to each other, the common scanning lens has a symmetrical shape in the secondary direction with respect to a plane including its own optical axis, and each of the individual scanning lenses has an asymmetrical shape in the secondary direction with respect to a plane including its own optical axis. | 04-04-2013 |
20130107338 | OPTICAL SCANNING DEVICE | 05-02-2013 |
20130242364 | METHOD FOR PROJECTING AN IMAGE - According to the present invention there is provided a method of projecting an image, the method comprising the steps of, providing light signal which is configured such that it can be projected onto a display surface to display an image; oscillating a first reflective surface, to scan the light signal over the display surface, using an actuator which is in operable co-operation with the first reflective surface, by applying a first actuation signal to the first reflective surface, wherein a rise time or fall time of the first actuation signal is inversely proportional to a resonant frequency of oscillation of the first reflective surface. | 09-19-2013 |
20130286455 | OPTICAL DEVICE, IMAGE DISPLAY APPARATUS AND HEAD-MOUNTED DISPLAY UNIT - Disclosed herein is an image display apparatus, including: a light source; and a scanning section adapted to scan a light beam emitted from the light source; the scanning section including (a) a first mirror, (b) a first light deflection section, (c) a second mirror, and (d) a second light deflection section; the second light deflection section including an external light receiving face; the second light deflection section having a plurality of translucent films provided in the inside thereof; the translucent films having a light reflectivity R | 10-31-2013 |
20140022618 | Aspherical optical surfaces and optical scanners - Optical systems with aspherical optical elements are described. The aspherical optical elements have surfaces in which the in-plane radius of curvature spatially varies and the in-plane cross section surface profile is characterized in that the multiplication of the cosine of the incidence angle raised to a non-zero exponent by the in-plane radius of curvature varies less than twenty percent between any two points on the in-plane cross section surface profile. | 01-23-2014 |
20140085695 | BEAM SCANNING BASED ON TWO-DIMENSIONAL POLYGON SCANNER FOR DISPLAY AND OTHER APPLICATIONS - Scanning beam systems based on a two-dimensional polygon scanner with different reflective polygon facets tilted at different tilt facet angles to use rotations of the polygon scanner to scan one or more optical beams both horizontally and vertically on a surface which can be a display screen or a printing surface. | 03-27-2014 |
20140092459 | SCANNING MICROSCOPE - There is provided a scanning microscope so configured that when the position of the exit pupil of an imaging optical system and a position conjugate to the exit pupil change, the position of the rotation center of a scanned light flux is moved and follows the changed exit pupil position. A scanning microscope includes a light source, an objective lens, and a scan unit. The scan unit includes first to fourth deflectors, and the deflection angle of illumination light deflected off each of the first to fourth deflectors is so controlled that the pivotal point of the illumination light deflected off each of the first and second deflectors and the pivotal point of the illumination light deflected off each of the third and fourth deflectors substantially coincide with the exit pupil of the objective lens or a position conjugate to the exit pupil. | 04-03-2014 |
20140126032 | IMAGE DISPLAY DEVICE - An image display device having a scanning characteristic excellent in the linearity without being upsized is provided. | 05-08-2014 |
20140153072 | IMAGE DISPLAY DEVICES - An image display device may include a varifocal optical element that condenses a light beam emitted from a light source and scans a projection surface with the light beam from the varifocal optical element. The varifocal optical element may include lenses located side by side in a direction orthogonal to their optical axes that are in parallel with each other; an orthogonal plane mirror that reflects the beam that passes through one of the lens to the other lens; and an actuator that moves the orthogonal plane mirror in parallel along the optical axes of the lenses. The displacement of the actuator may be controlled based on the scanning angle. | 06-05-2014 |
20140198365 | MULTI-BEAM LASER SCANNING SYSTEM AND METHOD - A multi-beam laser scanning system comprising a laser, a beam splitter, a first scanning unit, a second scanning unit, and a control unit is disclosed herein. The laser is used for generating an initial laser beam. The beam splitter is used for splitting the initial laser beam into a first laser beam and a second laser beam. The first scanning unit is used for deflecting the first laser beam along a desired direction. The second scanning unit is used for deflecting the second laser beam along a desired direction. The control unit is coupled to the first and second scanning units and arranged to output control signals to the first and second scanning units to manufacture an object. | 07-17-2014 |
20140253994 | Z-Axis Focusing Beam Brush Device and Associated Methods - A beam brush includes one lens fixed for receiving a laser beam propagating along a first beam axis, a retroreflector positioned for redirecting the laser beam onto a second beam axis through a change in beam path length, and a second lens transmitting the redirected beam. The retroreflector is rotatable about an offset axis and has its angle of rotation controlled for affecting a change in beam path length. The angle of rotation resulting in the path length change is selected for providing a focus or divergence of the reflected beam transmitted through the second lens. Such a system is useful as a Z-axis focusing device operable an X-Y scanner located downstream the modified beam. | 09-11-2014 |
20140293390 | OPTICAL DEVICE, IMAGE DISPLAY APPARATUS AND HEAD-MOUNTED DISPLAY UNIT - Disclosed herein is an image display apparatus, including: a light source; and a scanning section adapted to scan a light beam emitted from the light source; the scanning section including (a) a first mirror, (b) a first light deflection section, (c) a second mirror, and (d) a second light deflection section; the second light deflection section including an external light receiving face; the second light deflection section having a plurality of translucent films provided in the inside thereof; the translucent films having a light reflectivity R | 10-02-2014 |
20150085333 | RETINAL DISPLAY PROJECTION DEVICE - A retinal display projection device comprising a micro-projection component ( | 03-26-2015 |
20150378150 | Light Beam Scanner - According to an embodiment, a light beam scanner includes a first mirror and an angular magnification unit. The first mirror makes a normal direction of a reflecting surface change repeatedly. The angular magnification unit is configured to return, when viewed from a first direction, reflected light from the first mirror to the first mirror so that light is reflected at substantially the same points on the first mirror for a plural number of times, and increase, when viewed from the first direction, an angle each time light is reflected from the first mirror, the angle being between the normal direction of the reflecting surface and a reflection direction of light. Light is emitted from the angular magnification unit after the light is reflected from the first mirror for a predetermined number of times. | 12-31-2015 |
20160109698 | PROCESSING APPARATUS - The present invention provides a processing apparatus that processes an object by scanning light on the object, the apparatus comprising a scanning device including a mirror for reflecting the light and configured to scan the light by driving the mirror, and a controller configured to control the scanning device, wherein the controller is configured to obtain, based on a target scanning velocity, an angle of the mirror at which the scanning device is caused to start driving of the mirror, so that an angle of the mirror, at which scanning of the light is started, is a target angle. | 04-21-2016 |
20160109699 | OPTICAL BEAM SCANNER - A scanning device is presented having a substrate with a first surface and an opposite, parallel second surface. A region of the substrate includes the first surface and the opposite parallel second surface, and is defined via an etching process through a thickness of the substrate, where the region remains attached to the substrate via one or more hinges. A waveguide is patterned over the first surface of the region and guides a beam of radiation along a length of the waveguide. The scanning device includes a facet located on the first surface of the region. The facet is designed to reflect at least a portion of the beam of radiation through the region. An optical element is located on the second surface of the region, and is designed to receive the reflected portion of the beam of radiation. | 04-21-2016 |
20160161729 | OBSERVATION APPARATUS - An object is to enable LSM observation while correcting aberrations, as well as illumination with a desired pattern, using a single LCOS. An observation apparatus of the present invention includes an objective lens that focuses laser light emitted from a light source and radiates the laser light onto a specimen; an LCOS disposed at a position optically conjugate with the pupil position of the objective lens and capable of modulating, according to a wavefront modulation pattern, the wavefront of the laser light to be radiated onto the specimen by the objective lens; a scanner disposed at a position optically conjugate with the LCOS and capable of two-dimensionally scanning the laser light to be radiated onto the specimen by the objective lens; a focusing mechanism that adjusts the focal position, in the specimen, of the objective lens in the optical axis direction; and a control unit that controls the LCOS such that the LCOS corrects aberrations at the focal position adjusted by the focusing mechanism and forms a desired illumination pattern on the specimen. | 06-09-2016 |
20160178880 | SCANNING APPARATUS, CONFOCAL OBSERVATION APPARATUS AND DISK SCANNING APPARATUS | 06-23-2016 |
20160187634 | BEAM COMBINER FOR COMBINING TWO INDEPENDENTLY SCANNED ILLUMINATING BEAMS OF A LIGHT SCANNING MICROSCOPE - A beam combiner in a light scanning microscope for combining two illuminating beams that can be independently scanned. A first beam path (B | 06-30-2016 |
359202100 | X-Y scanners | 16 |
20090244669 | IMAGE DISPLAY APPARATUS - An image display apparatus that displays an image by scanning of coherent light includes: a light source portion that emits the coherent light; a scanning portion that scans the coherent light; a concave reflection portion having a concave surface from which the coherent light is reflected; and an incident position changing unit that changes an incident position of the coherent light onto the concave surface in a curvature direction of the concave surface. | 10-01-2009 |
20090316243 | Laser Projector - It is an object of the present invention to provide a laser projector for displaying an image based on raster scanning of a laser beam, in which a laser projector is capable of reliably detecting the deflection angle of a vibratory mirror used for horizontally scanning without the need for a light source other than a laser light source for displaying images even if the deflection angle is small, and also of accurately adjusting the deflection angle of the vibratory mirror to a predetermined deflection angle at the resonant frequency of the vibratory mirror without exceeding the predetermined deflection angle. The laser projector includes a light detecting element array disposed on a transparent substrate on a frame over a projection opening parallel to a horizontal scanning direction of the laser beam. To adjust the deflection angle of the horizontal scanning mirror, the laser beam scans the light detecting element array. Therefore, the deflection angle can be detected when it is small. After the operating frequency of the horizontal scanning mirror is brought into conformity with the resonant frequency thereof while keeping the deflection angle from exceeding a predetermined deflection angle, the intensity of an input signal is increased to adjust the deflection angle. Therefore, the deflection angle can be adjusted to the predetermined deflection angle at the resonant frequency. | 12-24-2009 |
20100182668 | Projection Image Display Apparatus - A projection image display apparatus includes a solid light source, and a projection element configured to scan a projection plane with spot light emitted from the solid light source. The projection image display apparatus includes an element controller configured to control a scanning speed of the projection element on the basis of an image input signal; and a signal corrector configured to correct the image input signal on the basis of the scanning speed of the projection element controlled by the element controller. | 07-22-2010 |
20100208319 | CONCENTRIC AFOCAL BEAM RELAY - An afocal beam relay has a concave reflective surface having a first center of curvature and a first vertex that define an optical axis. A convex reflective surface has a second center of curvature that is substantially coincident with the first center of curvature and a second vertex that lies along the optical axis. The convex reflective surface faces toward the concave reflective surface to relay a decentered entrance pupil to a decentered exit pupil. An aspheric corrector element is disposed in the path of input light that is directed to the decentered entrance pupil and has correction values that are substantially centered on the first center of curvature. | 08-19-2010 |
20110013246 | RETINAL SCANNING DISPLAY - In a retinal scanning display, a light source part generates light modulated in response to an image signal relating to an image, and an image is displayed by scanning the light radiated from the light source part. The retinal scanning display includes a diffraction element which is arranged on an optical path of the light radiated from the light source part and diffracts light in a predetermined diffraction direction. The diffraction element is arranged such that the diffraction element is arranged such that a projection of a diffraction direction on the diffraction element with respect to a scanning direction of the scanning part becomes approximately 45 degrees. | 01-20-2011 |
20110013247 | TWO-DIMENSIONAL SCANNING PROJECTOR - A two-dimensional scanning projector causing a light beam to scan in a first direction and a second direction orthogonal to the first direction, comprising: a first deflector which deflects the light beam in the first direction; and a scanning optical system arranged between the first deflector and a scanned surface, wherein the first deflector is arranged such that a rotation axis of the first deflector is inclined, in a plane including an optical axis of the scanning optical system and the second direction, by a first angle with respect to the second direction, and the light beam is incident on the first deflector such that, in the plane including the optical axis and the second direction, a chief ray of the light beam entering a center of a projected image is obliquely incident on the first deflector to form a second angle with respect to the optical axis. | 01-20-2011 |
20110249312 | IMAGE FORMING APPARATUS - An image forming apparatus includes a light output unit that outputs light and a light scanning unit that includes at least one light reflection part reflecting the light output from the light output unit, and scans a display surface in a first direction at a first speed and scans the surface in a second direction orthogonal to the first direction at a second speed lower than the first speed with the light reflected by the light reflection part, wherein a drawable region in which an image can be formed on the display surface by scanning with the light has at least two parts of a part in which a length of the drawable region in the first direction increases, apart in which the length decreases, and a part in which the length is maintained constant from a first side toward a second side in the second direction. | 10-13-2011 |
20120069415 | Scanning Projector with Dynamic Scan Angle - A scanning projector includes a MEMS device with a scanning mirror that sweeps a beam in two dimensions. Actuating circuits receive scan angle information and provide signal stimulus to the MEMS device to control the amount of mirror deflection on two axes. The period of movement on one or both axes may be modified to effect changes in line density in a resultant display. | 03-22-2012 |
20120212791 | TWO-DIMENSIONAL OPTICAL SCANNER AND LIGHT STIMULUS APPARATUS - Two-dimensional optical scanner includes: a first acousto-optical deflector (AOD) and a second AOD that deflects light according to a signal; a first driving unit that rotates the first AOD around axis perpendicular to a first plane including the light on and light from the first AOD; a first prism that is arranged adjacent to an emission end of the first AOD and compensates angular dispersion of the light; a second driving unit that rotates the second AOD around axis perpendicular to a second plane including the light on and light from the second AOD and perpendicular to the first plane; a second prism that is arranged adjacent to an emission end of the second AOD and compensates angular dispersion of the light; and a relay lens that allows the emission end of the first AOD and an incident end of the second AOD to be optically conjugate. | 08-23-2012 |
20120307328 | AFOCAL BEAM RELAY - An afocal beam relay has first and second primary concave reflective surfaces and first and second secondary convex toroidal reflective surfaces. The centers of curvature of each of the first and second primary reflective surfaces and first and second secondary reflective surfaces lie on an axis. The first and second secondary convex reflective surfaces face toward the first and second primary concave reflective surfaces and are disposed to relay a decentered entrance pupil to a decentered exit pupil. An aspheric corrector element is disposed in the path of an input beam of light that is directed by the primary and secondary surfaces to the decentered entrance pupil. The directed beam of light between the first and second secondary convex mirrors is collimated in one direction and focused in mid air in an orthogonal direction. | 12-06-2012 |
20140126033 | IMAGE DISPLAY DEVICE - An image display device having a scanning characteristic excellent in the linearity without being upsized is provided. The image display device includes: an optical scanning unit that scans a light emitted from a light source in a first direction and a second direction of an image plane due to a rotational movement of reciprocation of a reflecting surface of the light; and an optical system enlarges a scanning angle of the scanned light, in which the optical system has a free curved surface lens on an optical scanning unit side, and has a free curved surface mirror on an image plane side. The free curved surface mirror may be arranged so that the first direction is substantially parallel to a first plane defined by an incident optical beam and a reflected light in the free curved surface mirror when the optical scanning unit remains static in the center of the scanning range. | 05-08-2014 |
20140293391 | PROJECTOR AND HEAD-UP DISPLAY DEVICE - A projector includes: a laser light generating unit that emits laser light including image information; a laser light scanning unit that scans the laser light emitted by the laser light generating unit at a predetermined scan angle to project an image on a transparent display plate; and a scan control unit that sets a scan driving voltage, which determines the scan angle, according to an atmospheric pressure of an area in which the laser light scanning unit is disposed and supplies the scan driving voltage to the laser light scanning unit to control fluctuations in the scan angle. | 10-02-2014 |
20150036203 | MICROMIRROR - A micromirror including a first layer having a first main extension plane, and a second layer having a second main extension plane, the first main extension plane and the second main extension plane being situated parallel to one another, the first layer and the second layer being sectionally connected to one another via at least one connection area, at least one spring element being implemented in the first layer, a movably suspended mirror plate being implemented in the second layer, the mirror plate having a mirror surface on a first side parallel to the main extension plane and being connected on an opposing second side via the connection area to an anchor of the spring element, a part of the spring element on the second side of the mirror plate being movably situated in relation to the mirror plate. A two-mirror system having such a micromirror is also provided. | 02-05-2015 |
20160033780 | TRUE THREE-DIMENSIONAL VOLUMETRIC IMAGING DEVICE AND DISPLAY DEVICE - A true three-dimensional volumetric imaging device includes an imaging light source, a light source adjusting unit, an imaging plate, and a movement driving unit. The light source adjusting unit is arranged between the imaging light source and the imaging plate, and the imaging plate is connected to the movement driving unit. A light beam emitted from the imaging light source is incident onto the imaging plate after being adjusted by the light source adjusting unit, and the movement driving unit causes the imaging plate to oscillate in a direction parallel to an outgoing direction of the light beam emitted from the imaging light source. In the true three-dimensional volumetric imaging device, the true three-dimensional volumetric display of an image is achieved. An algorithm herein is simpler, and a more complete volumetric object can be shown. | 02-04-2016 |
20160131881 | LASER SCANNING MICROSCOPE - A laser scanning microscope for the acquisition of object images according to varied observation criteria. The microscope includes an illumination and detection unit, an illumination and a detection beam, a microscope objective, a scanning device with a scanning optical component and several scanners, with switching mirrors, each mirror with two switching positions, provided in the illumination and detection beams. Each switching position is assigned to one of several different, optically separate beam paths and each beam path defines a separate operating mode. A concave mirror for imaging a first scanner into at least one more scanner and vice versa is arranged in at least one of the beam paths. | 05-12-2016 |
20160195713 | MEMS MICRO-MIRROR DEVICE | 07-07-2016 |
359203100 | Having a common axis or rotation | 3 |
20100073751 | MULTIPLE-VIEWING-POINT FLOATING IMAGE DISPLAY DEVICE - A multiple viewing-point floating imaging device is comprised of a plurality of dihedral corner reflectors | 03-25-2010 |
20120038962 | MINIATURE ROTATING TRANSMISSIVE OPTICAL DRUM SCANNER - A miniature rotating transmissive optical scanner system employs a drum of small size having an interior defined by a circumferential wall rotatable on a drum axis, an optical element positioned within the interior of the drum, and a light-transmissive lens aperture provided at an angular position in the circumferential wall of the drum for scanning a light beam to or from the optical element in the drum along a beam azimuth angle as the drum is rotated. The miniature optical drum scanner configuration obtains a wide scanning field-of-view (FOV) and large effective aperture is achieved within a physically small size. | 02-16-2012 |
20160161728 | CONFOCAL SCANNER AND CONFOCAL MICROSCOPE - A confocal scanner includes a first micro lens disk having a plurality of micro lenses arranged thereon, a second micro lens disk having a plurality of micro lenses, which is arranged in correspondence to an arrangement pattern of the first micro lens disk, and having a common rotation axis to the first micro lens disk, and a beam splitter configured to guide an illumination light, which is to be irradiated to an object, to the first micro lens disk, and to guide a return light from the object having passed through each micro lens of the first micro lens disk to the corresponding micro lens of the second micro lens disk. A numerical aperture of each micro lens arranged on the second micro lens disk is greater than a numerical aperture of each micro lens arranged on the first micro lens disk. | 06-09-2016 |