Class / Patent application number | Description | Number of patent applications / Date published |
359319000 | Focusing | 17 |
20080225378 | DIELECTRIC COATINGS FOR ELECTROWETTING APPLICATIONS - A dielectric coating is provided which has both a dielectric constant greater than 2.5 and a hydrophobic surface. The dielectric coating may be provided by plasma enhanced chemical vapor deposition (PECVD) of organosilane, organosiloxane, organosilazane, organometallic, and/or hydrocarbon precursors. Methods are also provided for altering the contact angle of a liquid in contact with the dielectric coating, e.g., for electrowetting applications. | 09-18-2008 |
20080225379 | HIGH SPEED PIEZOELECTRIC OPTICAL SYSTEM WITH TUNABLE FOCAL LENGTH - A varifocal optical system includes a substantially circular membrane deposited on a substrate, and a ring-shaped PZT thin film deposited on the outer portion of the circular membrane. The membrane may be a MEMS-micromachined membrane, made of thermal oxide, polysilicon, Z | 09-18-2008 |
20080316587 | Solution Flow Prevention in Fluid Focus Lenses - In a fluid focus lens (ffl) a structured hydrophobic layer ( | 12-25-2008 |
20090002807 | Fluid Focus Lens to Isolate or Trap Small Particulate Matter - Beam manipulation member for use in an optical tweezers system, the beam manipulation member comprising at least one optical element, being controllably deformable in order to act on a laser beam in response to signals coming from the optical tweezers system. The beam manipulation member may be used to change the focal distance of the optical tweezers system and also to deflect the laser beam. | 01-01-2009 |
20090046349 | MULTIFOCAL LENS WITH A DIFFRACTIVE OPTICAL POWER REGION - A lens system is presented having a diffractive optical power region. The diffractive optical power region has a plurality of concentric surface relief diffractive structures. A greater portion of light incident on a diffractive structure near the center point contributes to the optical power than light incident on a diffractive structure peripherally spaced therefrom. | 02-19-2009 |
20090091818 | ELECTRO-ACTIVE INSERT - Aspects of the present invention provide multi-focal electro-active lenses having one or more multi-focal electro-active inserts. The electro-active inserts can provide multiple optical power regions each capable of providing a desired optical power. An electro-active power region of the insert is capable of providing a variable optical power upon application of an electrical signal such as a time-varying voltage waveform. Electro-active inserts can be fabricated from any type of material and can be inserted into any type of bulk lens material. The electro-active inserts can be thin and flexible and can function independently of other optical components of the overall electro-active lens. Consequently, the electro-active inserts can be fabricated according to a uniform design using uniform materials, independent of the supplementing portions of the final lens. Index matching layers of the present invention can be used to reduce reflection losses between bulk lens material and electro-active insert interfaces. | 04-09-2009 |
20090231677 | Variable Focal Point Optical Assembly Using Zone Plate and Electro-Optic Material - An optical assembly includes a zone plate and electro-optic material disposed on one side of the zone plate. The electro-optic material's index of refraction is controlled to adjust the optical properties of the optical assembly. | 09-17-2009 |
20100220383 | VARIABLE LENS - A lens is provided, comprising a lens body. According to an embodiment, the lens body comprises at least one portion of electroactive material. | 09-02-2010 |
20100253997 | Electronically reconfigurable planar crossbar array optical elements - Various embodiments of the present invention are directed to dynamically and electronically reconfigurable optical devices that can be operated as a lens or prism for incident beams of electromagnetic radiation. The optical devices include a phase-modulation layer ( | 10-07-2010 |
20100290104 | VARIABLE-FOCAL LENGTH LENS - To provide a variable-focal length lens capable of altering its focal length at high speed. The variable-focal length lens has an electrooptic material and electrodes formed on an incident surface of light and on an exit surface of the light of the electrooptic material. An optical axis is set so that the light is inputted into a gap where the electrodes of the incident surface are not formed and is outputted from a gap where the electrodes of the exit surface are not formed. A focus of the light that is transmitted through the electrooptic material becomes variable by varying an applied voltage between the electrodes of the incident surface and the electrodes of the exit surface. | 11-18-2010 |
20100302625 | SUB-DIFFRACTION-LIMITED IMAGING SYSTEMS AND METHODS - Various embodiments of the present invention are directed to systems and methods for obtaining images of objects with higher resolution than the diffraction limit. In one aspect, a method for collecting evanescent waves scattered from an object comprises electronically configuring a reconfigurable device to operate as a grating for one or more lattice periods using a computing device. Propagating waves scattered from the object pass through the reconfigurable device and a portion of evanescent waves scattered from the object are projected into the far field of the object. The method includes detecting propagating waves and detecting the portion of evanescent waves projected into the far field for each lattice period using an imaging system. | 12-02-2010 |
20110279886 | AUTOFOCUS IMAGING APPARATUS - An autofocus imaging apparatus ( | 11-17-2011 |
20130100521 | FOCUSING MECHANISM - A focusing mechanism for focusing a lens module includes a base seat, a movable platform, a positioning assembly, a support bracket and a plurality of arms. The positioning assembly is fixed to the base seat and passes through a center of the movable platform, a lens of the lens module is detachably mounted on the positioning assembly. The support bracket is fixed to the movable platform. A sensor of the lens module is detachably mounted on the support bracket. Each of the plurality of arms rotatably interconnects the movable platform and the base seat, the movable platform drives the support bracket to rotate relative to the positioning assembly to enable the lens to rotate relative to the sensor via a drive of the arms. | 04-25-2013 |
20130114128 | MULTIFOCAL LENS WITH A DIFFRACTIVE OPTICAL POWER REGION - A lens system is presented having a diffractive optical power region. The diffractive optical power region has a plurality of concentric surface relief diffractive structures. A greater portion of light incident on a diffractive structure near the center point contributes to the optical power than light incident on a diffractive structure peripherally spaced therefrom. | 05-09-2013 |
20130170017 | Customized user options for optical device - Exemplary methods, systems and components enable an enhanced direct-viewing optical device to include customized adjustments that accommodate various optical aberrations of a current user. A real-time adjustment of transformable optical elements is sometimes based on predetermined corrective optical parameters associated with a current user. Customized optical elements are incorporated with the direct-viewing optical device to produce a specified change in optical wavefront at an exit pupil. Possible transformable or replacement optical elements may have refractive and/or reflective and/or diffractive and/or transmissive characteristics that are selected based on current performance viewing factors for a given field of view of the direct-viewing device. Some embodiments enable dynamic repositioning and/or transformation of corrective optical elements responsive to a detected shift of a tracked gaze direction of a current user. Replacement corrective optical elements may be fabricated for current usage or retained in inventory for possible future usage in the direct-viewing device. | 07-04-2013 |
20130208347 | LASER PATTERNING OF CONDUCTIVE FILMS FOR ELECTRO-ACTIVE LENSES - Systems and methods for manufacturing electro-active lenses including a peripheral edge, a discrete electro-active region, and at least two substrates. The at least two substrates include a layer of a transparent conductive material, that is laser cut to isolate regions required for establishing an electrical connection between the peripheral edge of the lens, from regions not required for establishing an electrical connection. Isolating the regions of the transparent conductive material required for establishing an electrical connection may include cutting patterns around an electrode of each of the substrates. The regions not required for establishing an electrical connection may be further cut into sections, which may be substantially band-shaped. | 08-15-2013 |
20130342893 | INSPECTION SYSTEM AND METHOD FOR FAST CHANGES OF FOCUS - An inspection system includes a first focusing unit configured to perform fast focus changes to a first focusing function applied to an incident light beam. A traveling lens acousto-optic device is arranged to receive the light beam focused by the first focusing function and produce focused spots using a plurality of traveling lenses generated in response to radio frequency signals. The traveling lenses apply a second focusing function and the traveling lens acousto-optic device is arranged to alter the second focusing function at a fast rate. The inspection system also includes optics arranged to direct the focused spots onto an inspected object and to direct radiation from the inspected object to a sensor. | 12-26-2013 |