An optical silicon beam-steering apparatus made from one or more silicon wafers. The apparatus includes a bonded stack of one or more wafers including a mirror wafer and a possibly distinct wafer for actuation which allows the device to achieve a large scan range, a large mirror size and a high scan frequency.

A satellite imaging system includes a camera with a pixel shifting mechanism, thermally stable imaging payload, and high-stability attitude determination and control system (ADCS) to improve image resolution. To address the overall stabilization requirement, the satellite incorporates a number of design elements that, in combination, provide the stable result required for good imaging.

A wavelength selective switch includes: N input ports, an input-side fiber array, an input-side collimator array, an input-side beam deformation and polarization conversion component, an input-side wave-demultiplexing component, an input-side switching engine, a focusing transformation lens group, an output-side switching engine, an output-side wave-combining component, an output-side beam deformation and polarization conversion component, an output-side collimator array, an output-side fiber array, and M output ports. The focusing transformation lens group includes two identical aspheric convex lenses that are placed in parallel, where a curvature from a center to an edge of a surface of the aspheric convex lens changes continuously. A spatial position of the focusing transformation lens group and the curvature from the center to the edge of the surface are so set that light with different wavelengths from the input-side switching engine is focused to a corresponding position of the output-side switching engine respectively.

A digital micromirror device comprises an array of micromirror pixels, the array comprising a first micromirror pixel and a second micromirror pixel. The first micromirror pixel comprises a hinge, where the hinge is configured to tilt toward a first raised address electrode and toward a second raised address electrode. The first micromirror pixel also comprises a first micromirror coupled to the hinge, where the first micromirror has a sculpted edge. The second micromirror pixel comprises a second micromirror, where a first gap between a first point on the sculpted edge and a nearest point to the first point on the second micromirror is larger than a second gap between a second point on the sculpted edge and a nearest point to the second point on the second micromirror.

An optical delay line device, providing a fixed or variable optical delay, including an optical input, an optical output, an optical assembly that directs a beam along an optical path from the input to the output. The optical assembly including; a retroreflector, an optical element including first, second and third reflective surfaces, the second and third reflective surfaces being arranged to make therebetween an angle of 45°, a beam that propagates along the optical path and enters said optical element being reflected by the first surface with an angle of 90° toward the second surface, then being reflected by the second and third surfaces to exit from the optical element in a direction parallel to the direction of the beam incident on the optical element, and said optical element is arranged so as to steer said output beam onto said second surface of said retroreflector.

A wafer structure includes a diffractive lens disposed on a backside of a wafer and coupled to a front side waveguide, the diffractive lens being configured to receive light and focus the light to the front side waveguide.

A microscope may receive a fiber optic connector via a connector adapter of the microscope, wherein the connector adapter includes an opening and a shaped reflective surface surrounding the opening. The microscope may align a ferrule of the fiber optic connector with the opening of the connector adapter of the microscope, wherein the ferrule includes a ferrule endface. The microscope may transmit light onto the shaped reflective surface and may receive reflected light from the ferrule endface and with a camera of the microscope.

An optical coupler including a first surface intended to receive a light beam and a second surface intended to supply at least part of the light beam, and a lateral wall connecting the first surface to the second surface, the lateral wall successively including, between the first and second surfaces, a first concave portion and a first convex portion.

A backlight assembly, a method for manufacturing the same and a display device are provided. The backlight assembly includes: a light guide plate having a first surface and a second surface opposite to each other, a reflective layer at a position adjacent to the first surface of the light guide plate, and a piezoelectric unit on a surface of the reflective layer distal to the light guide plate. The piezoelectric unit is configured to undergo deformation in a direction close to the first surface and in a direction away from the first surface according to an audio voltage applied to the piezoelectric unit, and drive the reflective layer to undergo deformation to emit a sound.

In a mirror driving apparatus, a pair of beam portions includes: a pair of first beams directly adjacent to a reflector to sandwich the reflector between the first beams; and a pair of second beams each coupled to one side of a corresponding one of the first beams, the one side being opposite to the reflector with respect to the corresponding one of the first beams. A plurality of electrodes are spaced from each other on a main surface of each of the first beams, a piezoelectric material being interposed between the main surface and the plurality of electrodes. The first beams are displaceable crosswise to the main surface in respective directions opposite to each other. The pair of second beams is displaceable in a direction connecting the first beams and the second beams, along the main surface of the second beams.