Abstract: A spatial light modulator includes a mirror plate comprising a reflective upper surface, a lower surface, and a substrate portion comprising a cavity having an opening on the lower surface, a substrate comprising an upper surface, a hinge support post in connection with the substrate, and a hinge component supported by the hinge support post and in connection with the mirror plate, and one or more landing tips configured to contact the lower surface of the mirror plate to limit rotation of the mirror plate. The hinge component includes a protrusion that is anchored in a hole in the top surface of the hinge support post and the hinge component is configured to extend into the cavity to facilitate rotation of the mirror plate.

Abstract: A method of fabricating a tiltable micro mirror plate includes forming a substrate comprising an upper surface and a hinge support post in connection with the upper surface, disposing over the substrate a first sacrificial material selected from the group of amorphous carbon, polyarylene, polyarylene ether, and hydrogen silsesquioxane, depositing one or more layers of structural materials over the first sacrificial material, forming an opening in the one or more layers of structural materials, wherein the opening can provide access from outside to the first sacrificial material below the one or more layers of structural materials, and removing the first sacrificial material to form the tiltable micro mirror plate in connection with the hinge support post.

Abstract: Methods and apparatus for reducing a thermal load on an optical head are described. Waste light is captured at one or more locations in the optical head and directed to a location that is thermally isolated from the one or more locations in the optical head using or more optical fibers.

Abstract: A method for applying anti-stiction material to a micro device on a substrate includes introducing anti-stiction material on a surface of an encapsulation device or a surface of the substrate and sealing at least a portion of the encapsulation device to the surface of the substrate to form a chamber to encapsulate the micro device and the anti-stiction material. The micro device includes a first component and a second component. The first component is moveable and is configured to contact the second component. The method also includes vaporizing the anti-stiction material and depositing the anti-stiction material on a surface of the first component or a surface of the second component after vaporizing the anti-stiction material to prevent stiction between the first component and the second component.

Abstract: The present invention relates to semiconductor devices suitable for electronic, optoelectronic and energy conversion applications. In a particular form, the present invention relates to the fabrication of a thin film solar cells and thin film transistors through the advantageous combination of semiconductors, insulators, rare-earth based compounds and amorphous and/or ceramic and/or glass substrates. Crystalline or polycrystalline thin film semiconductor-on-glass formation using alkali ion impurity barrier layer(s) are disclosed. Example embodiment of crystalline or polycrystalline thin film semiconductor-on-glass formation using rare-earth based material as impurity barrier layer(s) is disclosed. In particular, thin film silicon-on-glass substrate is disclosed as the alternate embodiment, with impurity barrier designed to inhibit transport of deleterious alkali species from the glass into the semiconductor thin film.

Abstract: A chiral fiber grating for reflecting, scattering or polarizing an optical signal, or for forming a fiber laser feedback structure is disclosed. The chiral fiber grating is fabricated by fusing and then twisting/drawing two tapered optical fibers in accordance with a predetermined fabrication protocol. In one embodiment of the invention, the chiral fiber grating includes two single helix structure end-regions, with a double helix structure therebetween, providing the grating with apodizing properties. In another embodiment of invention, the pitch profile along a portion of the grating is configured to produce desired chiral fiber grating properties. In yet another embodiment of the invention, the chiral fiber grating, comprising two single helix end regions and a middle double helix region, may be separated into two or more portions after fabrication, for example to provide one or more single helix chiral fiber gratings and one or more double helix chiral fiber gratings.

Abstract: New thermoelectric materials and devices are disclosed for application to high efficiency thermoelectric power generation. New functional materials based on oxides, rare-earth-oxides, rare-earth-nitrides, rare-earth phosphides, copper-rare-earth oxides, silicon-rare-earth-oxides, germanium-rare-earth-oxides and bismuth rare-earth-oxides are disclosed. Addition of nitrogen and phosphorus are disclosed to optimize the oxide material properties for thermoelectric conversion efficiency. New devices based on bulk and multilayer thermoelectric materials are described. New devices based on bulk and multilayer thermoelectric materials using combinations of at least one of thermoelectric and pyroelectric and ferroelectric materials are described. Thermoelectric devices based on vertical pillar and planar architectures are disclosed. The advantage of the planar thermoelectric effect allows utility for large area applications and is scalable for large scale power generation plants.

Abstract: A high-speed electrical interconnection system is provided. The interconnection system comprises one or more electrical signal lines, or differential pairs of signal lines, and an in homogeneous dielectric system. The dielectric system further comprises a homogeneous dielectric layer interposed between the electrical signal lines, and an electrical conducting plane including a periodic array etched in the conducting material of the conducting plane. The inhomogeneous dielectric system exhibits a lower effective dielectric constant as compared to the dielectric constant of the homogeneous dielectric layer, resulting in lower microwave loss, reduced signal propagation delay, reduced signal skew and increased signal bandwidth. The interconnection system may be implemented for connecting one or more high speed electronic elements on-chip, off-chip, chip-chip connection on multilayer printed circuit boards, high speed die-package, high speed connectors and high speed electric cables.

Abstract: A spatial light modulator includes a substrate; a hinge in connection with the substrate; a mirror plate that is connected with the hinge and is configured to tilt about the hinge; and a piezoelectric device coupled with the substrate. The piezoelectric device is configured to produce an acoustic wave to assist the separation between the mirror plate and the object.

Abstract: In one exemplary embodiment, a method comprises transmitting an optical signal via the optical line, measuring a relative change in spectral intensity of the optical signal near a clock frequency (or half of that frequency) while varying a polarization of the optical signal between a first state of polarization and a second state of polarization, and using the relative change in spectral intensity of the optical signal to determine and correct the DGD of the optical line. Another method comprises splitting an optical signal traveling through the optical line into a first and second portions having a first and second principal states of polarization of the optical line, converting the first and second portions into a first and second electrical signals, delaying the second electrical signal to create a delayed electrical signal that compensates for a DGD of the optical line, and combining the delayed electrical signal with the first electrical signal to produce a fixed output electrical signal.

Abstract: A switching node is disclosed for the routing of packetized data employing a multi-stage packet based routing fabric combined with a plurality of memory switches employing memory queues. The switching node allowing reduced throughput delays, dynamic provisioning of bandwidth and packet prioritization.

Abstract: A micromirror for use in an optical apparatus may comprise a reflective portion, configured to be rotatable about a switching axis and an attenuation axis that is different from the switching axis. The reflective portion may include an edge that is substantially parallel to the attenuation axis. The edge may include one or more edge features that protrude above a plane of the micromirror surface and/or are submerged below the plane of the micromirror surface, and/or have an edge shape that deviates from a straight line. Alternatively, an array of micromirrors may have mirrors characterized by sawtooth features disposed along edges that are substantially parallel to the attenuation axis.

Abstract: Laser apparatus and methods involving multiple amplified outputs are disclosed. A laser apparatus may include a master oscillator, a beam splitter coupled to the master oscillator, and two or more output heads optically coupled to the beam splitter. The beam splitter divides a signal from the master oscillator into two or more sub-signals. Each output head receives one of the two or more sub-signals. Each output head includes coupling optics optically coupled to the beam splitter. An optical power amplifier is optically coupled between the beam splitter and the coupling optics. Optical outputs from the two or more output heads do not spatially overlap at a target. The master oscillator signal may be pulsed so that optical outputs of the output heads are pulsed and substantially synchronous with each other.

Abstract: The invention describes an integrated-photonics arrangement, implementable in a multi-guide vertical integration structure composed from III-V semiconductors and grown in one epitaxial growth run, that allows for vertical and lateral splitting of optical signals co- or bi-directionally propagating in the common passive waveguide into plurality of the vertically integrated passive or active wavelength-designated waveguides, therefore, enabling the wavelength-designated waveguides operating in different wavelengths to be monolithically integrated onto the same substrate and connected to the shared passive waveguide.

Abstract: A spatial light modulator includes a mirror plate comprising a reflective upper surface, a lower surface, and a cavity having an opening on the lower surface; a substrate comprising an upper surface, a hinge support post in connection with the upper surface, and a hinge component supported by the hinge support post and in connection with the mirror plate; and a landing tip having a laterally extended upper portion and a vertically extended lower portion in connection with the substrate and the vertically extended lower portion. The laterally extended upper portion can contact the lower surface of the mirror plate to limit the rotation of the mirror plate. The hinge component extends into the cavity and can facilitate a rotation of the mirror plate.

Abstract: Fundamental interconnect systems for connecting high-speed electronics elements are provided. The interconnect systems consists of the signal line, dielectric system with opened trench or slot filled up with the air or lower dielectric loss material, and the ground plane. The signal line could be for example, microstripline, strip line, coplanar line, single ended or differential pairs. The interconnect system can be used for on-chip interconnects or can also be used for off-chip interconnects (chip-to-chip interconnects). The fundamental techniques provided in this invention can also be used for high-speed connectors and high-speed cables. More over, this fundamental technology is also used for the high sped die package, high speed connector, and high speed cables where conventional manufacturing technology can be used and yet to increase the bandwidth of the interconnects.

Abstract: An example embodiment of the present invention is a non-blocking wavelength switching architecture that enables graceful scaling of a network wavelength switching node from small to large fiber counts using fixed size bidirectional 1×N Wavelength Selective Switches (WSS). The architecture uses an intermediate broadcast and select layer implemented using optical splitters and WSSs to eliminate wavelength blocking.

Abstract: A spatial light modulator includes a mirror plate comprising a reflective upper surface, a lower surface having a conductive surface portion, and a substrate portion having a first cavity having an opening on the lower surface, a second cavity in the substrate portion, and a membrane over the second cavity. The modulator includes a substrate comprising an upper surface, a hinge support post in connection with the upper surface, a hinge component supported by the hinge support post and in connection with the mirror plate to facilitate a rotation of the mirror plate, and an upright landing tip in connection with the upper surface of the substrate. The hinge component is extends into the first cavity. The upright landing tip is configured to contact the membrane over the second cavity in the substrate portion of the mirror plate to stop the rotation of the mirror plate at a predetermined orientation.

Abstract: A control substrate of spatial light modulator for a bi-directional micro mirror array includes a plurality of unit cells, each includes a common electrode at a fixed constant potential and an addressing electrode under the mirror plate on opposite sides of a pivot point of the mirror hinge, a pair of micro landing tips, a single CMOS transistor electrically connected to a storage capacitor, and a word-line/bit-line interconnection structure for communicating signals.

Abstract: A phosphate glass 1-?m fiber ASE source provides high power and broadband emission that covers wavelengths on the short side of Yb-doped silica. A single-mode fiber formed from phosphate glass is doped with highly elevated concentrations of Yb dopants 0.5-30 wt. % and typically 2-10 wt. %, far higher than either silica or germano-silicate. The high concentration of Yb dopant absorbs the pump in a short length, typically 10-150 cm instead of tens of meters, to provide high saturated output power and a shifted emission spectrum. The excess power allows the fiber ASE source to be configured to provide the output powers, emission bandwidth and stability desired by many applications. Furthermore, the ASE can be configured to emit a nearly Gaussian spectral profile without sacrificing power or bandwidth.