Abstract: A spatial light modulator is constructed from a conductive silicon mirror substrate and a glass electrode substrate including sodium, anode-bonded together. The silicon mirror substrate has micromirrors arranged in a matrix, torsion bars coupling these micromirrors in the x-direction, and a frame coupled to both ends of the torsion bars. A glass electrode substrate has a central depression, a rim around the periphery thereof, pillars projecting from within the depression, and electrodes and wiring driving micromirrors formed within the depression in an inclining manner. Both ends of the torsion bars are bonded to the rim of the frame portion, and intermediate portions of the torsion bars are bonded to the pillars. Both ends of the torsion bars are cut away from the frame portion during dicing.

Abstract: An electrostatically actuated micromirror light modulator that exhibits increased deflection range, better charge efficiency and improved electrostatic stability. A thin insulating membrane decouples the electron beam from the micromirror array inside the vacuum cell. The membrane is just thick enough to stop the incident electrons from penetrating through to the mirrors but is thin enough to maintain resolution of the deposited charge pattern. An equipotential layer beneath the mirror array prevents any attractive force from being developed due to the accumulation of static charge on the surface of the light modulator that may otherwise cause the mirror to snap-over and become stuck to the substrate.

Abstract: A method of making a light modulator (10) for modulating an incident beam of light includes a substrate (14) having a cavity (32)formed therein and a plurality of spaced-apart deformable elements (12) formed in the cavity (32). The deformable elements (12) each has a base layer (16), a poled magnetic layer (18) formed in the base layer (16) and a first light reflection layer (20)deposited on the magnetic layer (18) for reflecting an incident beam of light. Between adjacent deformable elements on the base (12) of the cavity (32) is arranged a second light reflection layer (36). A conductive element (22, 24) formed in the substrate (14) electro-magnetically energizes the deformable elements (12) to deflect in the cavity (32). Incident light passing through each one of the first light reflection layers (20) is caused to destructively interfere with light reflected from the second light reflection layers (36) thereby causing modulation of the incident light.

Abstract: A deformable mirror device for changing a proceeding path of an incident light includes a substrate, a pair of posts protruding from the upper surface of the substrate and spaced a predetermined distance from each other, an electrode formed on the upper surface of the substrate, a reflection mirror arranged to face the electrode by being supported by the posts, and first and second support pieces having predetermined rigidities for supporting the reflection mirror. The support pieces are connected between the reflection mirror and the posts so that an inclination of the reflection mirror can be adjusted by an electrostatic attraction between the electrode and the reflection mirror. The electrode is arranged to be offset from the reflection mirror such that a magnitude of the forces applied to the electrode at the positions between each of the first and second support pieces and the reflection mirror differ from each other.

Abstract: A micromachined vertical actuator utilizing a levitational force, such as in electrostatic comb drives, provides vertical actuation that is relatively linear in actuation for control, and can be readily combined with parallel plate capacitive position sensing for position control. The micromachined electrostatic vertical actuator provides accurate movement in the sub-micron to micron ranges which is desirable in the phase modulation instrument, such as optical phase shifting. For example, compact, inexpensive, and position controllable micromirrors utilizing an electrostatic vertical actuator can replace the large, expensive, and difficult-to-maintain piezoelectric actuators. A thirty pound piezoelectric actuator with corner cube reflectors, as utilized in a phase shifting diffraction interferometer can be replaced with a micromirror and a lens.

Abstract: An optical modulator that contains a flexible dielectric membrane suspended over a substrate. The flexible membrane is made of a dielectric material such as silicon nitride. In one embodiment of the invention, the flexible membrane has an optically active region. A contact region is maintained in the vicinity of the optically active region which is electrically isolated therefrom. The contact region which includes a conductive material draws accumulated charge build-up from the optically active region. In another embodiment a first area of conductive material is formed on at least one surface of the flexible membrane proximate its center. At least one second area of conductive material is formed on at least one surface of the flexible membrane surrounding the first area. The first area of conductive material is kept electrically isolated from the surrounding second area. The first area of conductive material is coupled to an electrical ground.

Abstract: A spatial light modulator (10) having a micromechanical active portion (12) encompassed by a light shield (14). The light shield (14) is fabricated upon a substrate (36) and has a plurality of openings (72, and 80) to permit underlying layers of photoresist (90, 92) to be undercut from beneath the light shield. Removal of the photoresist layers provides a sufficiently flat light shield, and eliminates the possibility that particles from the photoresist layer could migrate to beneath active micromirrors (30) of the spatial light modulator (12).

Abstract: In an infra-red imaging system, infra-red radiation from a scene is optically collected and directed to form an infra-red image of the scene on an array of bi-state diffraction grating elements. Each bi-state diffraction grating element has an activated state providing diffraction of incident infra-red radiation at a predetermined angle from the incident direction and an alternative inactivated state providing no such diffraction at the predetermined angle. Scanning apparatus sequentially activates the bi-state diffraction grating elements temporarily from their inactivated states to their activated states to produce a scanned infra-red image of the scene in IR radiation diffracted by the elements at the predetermined angle, which is collected and directed to an infra-red detector. The detector provides a coded electrical representation of the scanned infra-red image of the scene to further apparatus which generates therefrom a human-detectable signal.

Abstract: A digital micromirror device ("DMD") is used to alter the shape of light that is projected onto a stage. The DMD selectively reflects some light, thereby shaping the light that is projected onto the stage. The control for the alteration is controlled by an image. That image can be processed, thereby carrying out image processing effects on the shape of the light that is displayed. One preferred application follows the shape of the performer and illuminates the performer using a shape that adaptively in follows the performer's image. This results in a shadowless follow spot.

Abstract: A digital micromirror device ("DMD") is used to alter the shape of light that is projected onto a stage. The DMD selectively reflects some light, thereby shaping the light that is projected onto the stage. The control for the alteration is controlled by an image. That image can be processed, thereby carrying out image processing effects on the shape of the light that is displayed. One preferred application follows the shape of the performer and illuminates the performer using a shape that adaptively follows the performer's image. This results in a shadowless follow spot.

Abstract: A channel counter that can count the number of given wavelength channels in a specific wavelength range in a simplified system. A channel counter comprises an acousto-optic deflector, an optical fiber for transmitting light to the acousto-optic deflector, an optical receiver for receiving light transmitted from the optical fiber and diffracted by the acousto-optic deflector, an oscillator for driving the acousto-optic deflector, a scanning circuit for time-scanning the oscillation frequency of the oscillator, and a count circuit for counting the number of peaks of an electric signal output from the optical receiver per scanning duration of the scanning circuit.

Abstract: A deformable mirror device and manufacturing method therefor. The method includes the steps of forming an electrode layer on a substrate in a predetermined pattern, forming a thick film on the upper surfaces of the substrate and the electrode layer, forming a support plate on the upper surface of the thick film, and partially etching the thick film to form at least one through hole. The method further includes separating the support plate into single portions, forming a post on one side of the inner surface of the through hole, forming a reflecting plate on the upper surface of the support plate, and removing the thick film.

Abstract: A deflecting element (1) includes a first substrate (3) and a second substrate (5). The two substrates (3) and (5) enclose a liquid crystalline material (7) which is switchable. A surface (13) of one of the substrates (3) facing the liquid crystalline material (7) is provided with a grating structure (15). The other substrate (5) is provided with a plurality of microlenses (21) on a surface (23) facing the liquid crystalline material (7).

Abstract: A fiber optic spatial light modulation system which includes a light source which produces source light, an optical fiber bundle which includes a plurality of individual optical fibers, and a spatial light modulator which is interposed between the light source and the optical fiber bundle, and which selectively modulates the amount of the source light coupled into each of the individual optical fibers, wherein the amount of the source light coupled into different ones of the individual optical fibers can be unequal.

Abstract: A high intensity light modulator includes a micro-mirror light valve target with electrostatically-repelled micro-mirror elements. Each micro-mirror of the target array comprises a base electrode and an overlying micro-mirror element. In operation, charge is deposited upon the micro-mirrors to produce repulsive electrostatic forces that outwardly deflect the micro-mirror elements by an amount proportional to the deposited charge. In one embodiment, an array of micro-mirror light valves is formed directly upon the face plate of a vidicon tube and is addressed using a scanning electron gun.

Abstract: A single reflector, two-axis MEMS scanner made of a substrate. The substrate has nested, cut-out regions. Each region is independently rotatable about one of the axes. The axes of the regions are substantially orthogonal.

Abstract: A combination of an optically transmissive dielectric fluid having a first refractive index and an optically anisotropic particle rotatably disposed in the fluid is provided. The particle has at least one optically transmissive region having a second refractive index. The particle provides a first optical modulation characteristic when disposed in the fluid in a first orientation with respect to a flux of optical energy, and further provides a second optical modulation characteristic when disposed in the fluid in a second orientation with respect to a flux of optical energy. The particle has an anisotropy for providing an electrical dipole moment, the electrical dipole moment rendering the particle electrically responsive such that when the particle is rotatably disposed in an electric field while the electrical dipole moment of the particle is provided, the particle tends to rotate to an orientation in which the electrical dipole moment aligns with the field.

Abstract: An actuator having an asymmetric rigid structure for changing an optical beam path. The actuator has a base plate installed in a cover, first electrodes installed on an upper surface of the base plate by evaporation, a driving electrode disposed between the first electrodes, a pair of support plates each installed on a respective one of the first electrodes for receiving a voltage from the first electrodes, a reflecting plate disposed between the pair of support plates for reflecting an incident beam emitted from a beam source, and asymmetric members connected to the reflecting plate for adjusting an incident path of the incident beam and an inclination angle of a reflection beam with respect to the incident beam. The actuator can easily adjust the incident path of the incident beam and an inclination angle of the reflection beam with respect to the incident beam by asymmetrically inclining the reflecting plate.

Abstract: A method and apparatus for providing sequential temporal and spatial integration of a collimated non-symmetrical excimer laser beam to optimize the temporal and spatial characteristics of the beam. The temporal integrator comprises a pair of cylindrical lenses spaced along the beam axis by a distance substantially equal to the sum of the focal length of both lenses, and a motor mechanism for rotating the two spaced cylindrical lenses about the beam axis. The spatial beam integrator includes a plurality of prisms distributed about a hollow center, the outlet face of each prism being angled with respect to the body axis of the spatial beam integrator so that portions of the laser beam passing through a given prism are refracted towards the center upon emergence from the outlet face.

Abstract: A method and apparatus for adjusting spatial light modulators in an imaging system. The apparatus includes several screws, plungers and pins connecting to a housing. When the screws and plungers are adjusted, the device held by the housing is manipulated along the x, y and z axes, allowing the device to be focused and aligned. If multiple modulators are involved, they can also be converged. The method includes the steps of mounting the devices in adjustable sockets, aligning each device, focusing each device and then positioning images from each device to converge with images from other devices.

Abstract: An electrostatic memory micromirror display system including an array of electrostatic memory and display assemblies each including a memory and display element having a mirror surface and a conductive medium; a support device for movably mounting the memory and display element; and a set of electrodes including at least first and second electrodes proximate the conductive medium; and means for selectively applying a voltage to the first electrode of predetermined ones of the memory and display assemblies to establish an electrostatic field between the first electrode and the conductive medium to urge the associated display element from a first position toward a second position and for applying a voltage to the second electrode of the assemblies to establish an electric field between the second electrode and the conductive medium to set the memory and display element in the second position.

Abstract: An access system based on piezo-electric transducer assembly or electro-optic device light beam deflector assembly which on application of electric signals deflects light beams, which are then passed through total internally reflecting surfaces to increase the separation between beams, is described. The light beams fall on large area information storage surface, such as optical disk or magnetic disk, for the purpose of reading and writing. The access time to the information is very fast. The nature of the reflected light from the memory surface is detected to read the digital signals stored on the surface as is conventionally done in the art. Except for the small friction-free movements of the piezo-electric transducers there are no moving parts for access to the storage surface. Instead of the memory surface a screen may be placed when tthe light beams can be used after large separation to form a fast display.

Abstract: A small-sized optical reading device for performing the high-speed optical scanning of an object to be read, and for returning light irregularly reflected by the object. In this device, a first reflector element is driven in such a manner as to perform reciprocative rotations or vibrations clockwise and counterclockwise. Further, a medium, on which a bar code, namely, the object is recorded, is scanned by light beams reflected by the first reflector element. The light beams irregularly reflected by the medium are returned to a reflector element array consisting of second reflector elements of a reciprocative vibration reflector. Independent drive signals are provided concurrently to the first reflector element and the reflector element array. The reflecting surface of the first reflector element has a size sufficient to the extent that the entire spotlight caused by a semiconductor laser can be reflected.

Abstract: An integrated electro-optical package including an array composed of a substrate having defined thereon a plurality of unit cells, composed of active and inactive areas. The substrate having positioned thereon a major surface, a plurality of sub-arrays and driver/control circuits. The sub-arrays, defining the active area formed within each unit cell, and being composed of a plurality of light emitting devices. The driver/control circuits mounted to the substrate within the inactive area of each unit cell. The electro-optical package fabricated to allow for scanning of the active area of each unit cell to create a resultant integrated image of increased resolution, without an increase in the number of pixels formed by the light emitting devices of the sub-arrays.

Abstract: An object surface height measuring device with two acousto-optical modules for refracting light from a light emitter with predetermined refractive indices depending on frequency modulation so that the light is swept over the X and Y axes of an object, and two other acousto-optical modules synchronized with the signals of the first two acousto-optical modules, respectively, so that the light reflected from the object is focused onto a light receiving portion. The change in the height of the object is measured from the variation between the spot of light focused onto the light receiving portion and the center of the light receiver.

Abstract: An optical isolator and circular polarizer are used in combination to optically isolate specular and diffuse reflections which result when a forward traveling radiation beam encounters an optical or non-optical boundary surface. The forward traveling radiation beam is linearly polarized with a linear polarizer such that its plane of linear polarization is aligned with a first polarization axis, then the axis of linear polarization is rotated to a second polarization axis with a polarization rotator and finally the linearly polarized forward traveling beam is circularly polarized with a quarter wave retarder.

Abstract: A self scanning light-emitting array is disclosed. A coupled array of light-emitting elements is constituted so that a light-emitting element in a minimal conducting state influences the next light-emitting element so that its threshold level is changed. When each element is driven by a common clock pulse, the change in threshold level is shifted in the longitudinal direction, so that a minimal conducting state is transferred in a clock period of the clock pulse.

Abstract: A system and method for increasing the number of bits available for use in a video display system that includes at least one spatial light modulator. The system uses a wheel (30) of three colors, or a color wheel that is clear, including at least one segment (34) which has a lower intensity region, referred to as a neutral density filter. Alternately, the filter could be a liquid crystal controller to control either light amplitude or color. By using a lower intensity region, the amount of time available to process the least significant bit of the data sample is lengthened, thereby eliminating the constraint on the number of bits available for display.

Abstract: A scanning optical system having both a reading optical system and an image forming optical system is capable of using one or more components for both systems.

Abstract: A decelerating and focusing ion beam device is provided with an ion source, a focusing lens system having a plurality of focusing lenses and a multiple decelerating lens system having a plurality of decelerating lenses. It is possible to realize selective super-refined crystal growth and superficial etching with very high accuracy.

Abstract: A technique of stabilizing the output of an acoustooptic modulator. A laser passes a light beam through the acoustooptic modulator. A driver circuit connects to a drive electrode of the acoustooptic modulator. RF generators deliver drive power at a first carrier frequency and compensation power at second and third carrier frequencies, one higher and the other lower than the first carrier frequency. The driver circuit modulates the drive power and the compensation power such that compensating acoustic energy induced in the acoustooptic modulator complements drive acoustic energy, and the spatial content of the drive acoustic energy. The combined drive power and the complementing compensating power maintain the spatial thermal energy distribution inside the acoustooptic modulator substantially constant. Consequently, beam steering and thermal ellipticity are stabilized and remain substantially constant throughout the operating range of the modulator.

Abstract: A laser beam pattern modulator includes a light-transmissive, light-refractive element for rotating and/or linearly displacing the beam such that the refracted beam remains parallel to the incident beam and has the capacity: (a) to minimize a substantial quantity of irregularities in the treatment pattern from hot spots and cold spots in the laser beam; (b) to enlarge and blend the edges of the treatment patterns formed by the beam; and (c) to form an enlarged, multi-zone, aspheric, myopic, hyperopic or astigmatic treatment patterns. A method for treating corneal tissue with laser light, particularly excimer laser light, includes directing a beam of excimer laser light such as a broad beam with variable spot size through a beam modulator such as an anglable, rotatable quartz flat.

Abstract: A compact display system including a viewing surface; a beam steering mechanism; a source of light remote from the viewing surface and the beam steering mechanism; and at least one waveguide connecting the source of light with the viewing surface for transmitting illumination from the source of light to the viewing surface. The beam steering mechanism is associated with the waveguide and the viewing surface for scanning illumination transmitted by the waveguide onto the viewing surface. There is a modulator for modulating the source of light; and a subsystem for synchronizing the modulator with the beam steering mechanism, but only the distal end of the waveguide and the beam steering mechanism are located near the viewing surface resulting in a more compact display which can be mounted on a pair of eyeglasses.

Abstract: A viewing device that selectively attenuates light from bright objects, leaving light from dim objects substantially unaffected. The invention comprises an array of optical systems each of which contains one or more focusing elements which focus an image of the object field onto a focal plane, and one or more eyepiece elements for viewing portions of the focused image. The optical systems in the array are aligned to permit the viewed portions to be seen coherently to form a composite view of the object field. A photoactive layer is located at the focal plane. The photoactive layer may be a photochromic system that darkens when exposed to intense light and returns to the clear state when the intensity is substantially reduced. The light path through the device is folded using optical elements such as mirrors or prisms to minimize the size of the device. The photoactive layer may be a system of several layers functioning as a light valve.

Abstract: A spatial light modulator assembly is disclosed which adapts a conventional photographic printer to generate photographic images from electronic image signal such as that created by an electronic still image camera. The spatial light modulator assembly comprises a spatial light modulator ("SLIM") which is connected to a computer for imprinting electronic image signal thereon where the electronic image signal is communicated from the computer. The SLM is secured within an adapter which is formed to fit in a negative carrier of the photographic printer such that an image imprinted on the SLM is positioned over a light source thereby projecting the image onto photographic paper held within the conventional photographic printer.

Abstract: An acousto-optic deflector device having a piezoelectric thin film and IDT formed on a substrate for deflecting a light by causing an SAW generated at an SAW generator region to interact with the light at a light waveguide region. The piezoelectric thin film is constructed of a first piezoelectric thin film having a relatively high resistance and a high piezoelectricity in the SAW generator region, and a second piezoelectric thin film having a smaller light propagation loss than the first piezoelectric thin film 3a in the light waveguide region.

Abstract: An imaging apparatus modulates or gates pluralities of light beams through individual light valves, thereby providing a greater number and finer resolution of modulated light beams without increasing the number of light valves or decreasing the spacing between adjacent light valves. A two-step modulation process is used, the first step being performed by a light generator incorporating a polygon mirror that selectively illuminates selected bundles of fiber optic strands. One strand from each bundle is routed to illuminate one of the cells in a light valve array, such that when a bundle is illuminated, every cell is illuminated by a strand from the illuminated bundle. The second step of the modulation process involves controlling the light valve array to modulate the light beams formed by the illuminated strands at each cell.

Abstract: An array of pellicle optical gates may be utilized as a real time, thin film, flat panel display. At an element pitch typical of the pixel pitch of a representative laser printer, the display may emulate a page of data as printed by a laser printer but with the capability of real time editing and with the additional capabilities of data retention when removed from the source and electronic recovery of the retained data. A plurality of the arrays may emulate a plurality of printed pages wherein a multi-page document may be made available. A similar array may be utilized as a light gate in an image projection system.

Abstract: An optoelectronic tomographic reconstruction system utilizes spacial light modulators in charge couple devices to perform projection iterative reconstruction techniques and simultaneous iterative reconstruction techniques. A back projection processor uses a linear array of analog spacial light modulators in a cylindrical lens, an image detection array, and an image rotator. The image rotator smears a projected image at the same angle as the projection was taken. The back projection processor thus smears the projection back to the image space. An optoelectronic forward projection processor uses an spacial light modulator array, an image rotator, and an image detecting array. A reconstructed image displayed by the spacial light modulator is smeared by the rotator to forward project the reconstructed image on the image detecting array at the same angle as when the measured projection was taken. The forward projection processor thus smears the reconstructed image back into the projection space.

Abstract: A method and apparatus for providing sequential temporal and spatial integration of a collimated non-symmetrical excimer laser beam to optimize the temporal and spatial characteristics of the beam. The temporal integrator comprises a pair of cylindrical lenses spaced along the beam axis by a distance substantially equal to the sum of the focal length of both lenses, and a motor mechanism for rotating the two spaced cylindrical lenses about the beam axis. The spatial beam integrator includes a plurality of prisms distributed about a hollow center, the outlet face of each prism being angled with respect to the body axis of the spatial beam integrator so that portions of the laser beam passing through a given prism are refracted towards the center upon emergence from the outlet face.

Abstract: A method of preventing adhesion of contacting surfaces of micro-mechanical devices (10). Two materials are selected that are incompatible in the sense that they have at least low solid solubility and preferably, an inability to alloy. One of these materials is used as the first contacting surface (11), and the other as the second contacting surface (17).

Abstract: A signal filter, and method of signal filtering, in which an optical signal s spatially dispersed according to frequency, and undesired frequencies blocked out. In an embodiment, a Bragg cell receives a (typically microwave) signal, and transduces it to an acoustic signal. A light source, e.g. a laser diode, directs light through the acoustic signal in a known manner so as to produce an optical output which is spatially dispersed according to frequency. A programmable spatial light modulator blocks out unwanted frequency components. Upon removal of the optical carrier, e.g. by heterodyning the spatial light modulator's output with a reference signal from the light source, the components can be recombined into a resultant filtered signal. The invention can be used as a repeater, a military electronic countermeasure, in environments which have large amounts of electromagnetic clutter but in which one does not want the clutter repeated.

Abstract: The obturators can be actuated in order to modulate an incident beam (L). Microshutters (5) are attached to a substrate by means of fastenings opposing resistance to their rotation away from a rest position. The microshutters (5) are placed on optical paths (X--X) so as to be able to interrupt them or establish them. They are fitted out with reflecting surfaces (7) so as to deflect the light when they are in the blocking position. On each optical path (X--X) a supplementary reflecting surface (8), a diaphragm (6) and a focusing means (4) are placed. Thus, in line with its position, each microshutter can focus the light on the diaphragm (6) so as to allow it to pass or to deflect it in order to block it. The application thereof is in the transformation of a beam (L) into a modulated beam (Lm).

Abstract: An optical element consists of an LN or LT crystal doped with MgO or ZnO. A +z surface and a -z surface of the crystal are connected to each other by means of a metal jig and an indium sheet. The +z surface and the -z surface may also be connected to each other by means of an electrically conductive wire material. The optical element may be a bulk crystal, an optical waveguide type electro-optical modulator, or a bifurcated interference type optical modulator. In this way, an optical damage resistant property of the optical element is improved.

Abstract: In optical playback appliances, such as CD-players, the objective lens sits on a lens-holder that is mounted so as to swivel around an axis and that carries at least one coil. The axis of rotation of the lens-holder is secured to a housing. To allow the lens-holder (LH) to move easily, without being hampered by wires, in the optical scanning device, essentially composed of the lens-holder (LH) and the housing (G), the current required for the coils (S1, S2) flows through respective elastic, electroconductive fastening elements (FO, FU) to both ends (SO, SU) of the axis (N), and from said ends (SO, SU), electrically isolated from each other, to the coils (S1, S2), via respective strip conductors (LPO, LBU) on the lens-holder (LH). This optical scanning device with a lens-holder is useful in CD-players, video disk players, DRAW-disk players and in magneto-optical recorders and players.

Abstract: A device for viewing an object field containing intense light sources which could be disturbing or harmful to the human eye. Light from the object field is focused at a focal plane located within a layer of photochromic material. An intense light source produces an opaque mask in the photochromic layer. This mask matches the location and shape of the image of the intense light source at the image plane. An eyepiece permits a viewer to view the image plane to obtain an image of the object field with light from the intense light source dimmed by the opaque mask in the photochromic layer.

Abstract: A system for optically providing one-to-many irregular interconnections, and strength-adjustable many-to-many irregular interconnections which may be provided with strengths (weights) w.sub.ij using multiple laser beams which address multiple holograms and means for combining the beams modified by the holograms to form multiple interconnections, such as a cross-bar switching network. The optical means for interconnection is based on entering a series of complex computer-generated holograms on an electrically addressed spatial light modulator for real-time reconfigurations, thus providing flexibility for interconnection networks for large-scale practical use. By employing multiple sources and holograms, the number of interconnection patterns achieved is increased greatly.

Abstract: A method of forming of a monomolecular coating (19) for surfaces of contacting elements (11, 17) of micro-mechanical devices (10), specifically, devices that have moving elements that contact other elements and that tend to stick as a result of the contact. The method uses liquid deposition, with the device being placed in a solution that contains a precursor to the formation of the coating. The precursor is chosen based on coordination chemistry between the precursor and the surface to be coated.

Abstract: By forming quantum well (QW) structures with two different heterojunctions having different band offsets it is possible to form QWs having, when subjected to optical excitation, dipoles. The presence of a dipole in a narrow enough well results in QWs having absorption edges which, unlike those of conventional QWs can be shifted to the blue by application of an electric field of appropriate polarity.

Abstract: A method and apparatus is provided for propagating photoelectrons in a semiconductor material and for controlling the direction of photoelectrons produced in a semiconductor material. A selected region of the semiconductor material is irradiated with two beams of light that overlap in space and time. The two interfering light beams have a predetermined phase relationship and are harmonically related such that the frequency of one is approximately a multiple of two of the other. Each of the beams of light produce substantially a same number of photoelectrons in the semiconductor material. As the phase relationship between the two beams is varied, the direction of propagation of the photoelectrons produced, varies.