Abstract: A MEMs mirror device comprises a mirror layer, a frame structure, and an actuator layer. At least one mirror is movably coupled to the frame. The actuator layer includes at least one conductive path for moving the mirror. In accordance with the invention, the mirror is curved for efficiently directing and focusing reflected light. The mirror comprises a metal-coated base, and curvature can be achieved by doping selected regions of the base or by using coating/base combinations with sufficient mismatch that they be curved by differential thermal expansion. The resulting MEMs devices are advantageous for optical switching, variable attenuation and power gain equalization.

Abstract: A method for fabricating a reactive solder or braze includes forming a metallic matrix with an interior region and surface regions by actively providing a higher concentration of reactive atoms to the interior region than to the surface regions.

Abstract: In accordance with the invention, a MEMs device comprises a component layer, an actuator layer and an intervening spacer. The component layer, the spacer and the actuator layer are assembled at ambient temperature and held together in lateral alignment by resilient spring members. The spacer provides the walls of a cavity between a component and an actuator to permit movement of the component. The walls are advantageously conductive and cover the bulk of the peripheral boundary of the cavity to provide electrostatic isolation and aerodynamic isolation.

Abstract: A mirror, or an array of mirrors, for use in a micro-electro-mechanical system (MEMS) optical device. The mirror includes a mirror substrate having a loss-reducing layer located over a first or second side thereof, and a light reflective optical layer located over the loss-reducing layer. The inventive mirror reduces undesirable Fabry-Perot interferrometric optical loss through minimizing the extent of multiple reflections within the MEMS mirror substrate.

Abstract: It was discovered that metals useful for cuprate superconductor wires and ribbons, such as Ag, Cu, and Au, are not necessarily desirable for magnesium boride superconductor bodies, since such elements tend to react with Mg and thereby deteriorate the properties of the superconducting MgB2. The invention relates to techniques and materials that provide useful MgB2 superconducting bodies. The invention relates to a method for forming a MgB2 superconducting body, involving providing an intermediate body of a metal cladding; superconducting material or precursor material for superconducting material; and, optionally, a diffusion barrier (depending on the type of metal cladding); performing a cross-section reducing operation on the intermediate body, to provide an elongate body; and performing a heat treatment of the elongate body, to obtain desired properties from the superconducting material (and to also form the superconducting MgB2 material when precursor material is used).

Abstract: A device for use in a micro-electro-mechanical system (MEMS) optical device. The device includes a substrate having opposing first and second sides and a diffusion barrier layer formed over at least the first side. The device further includes a light reflective optical layer formed over the diffusion barrier layer on the first side of the substrate. The second side may desirably have a stress balancing layer located thereover.

Abstract: A device for use in a micro-electro-mechanical system (MEMS) optical system. The device includes a substrate having opposing first and second sides, wherein the first side has a light reflective optical layer located thereover, and the second side is an irregular surface.

Abstract: A MEMs mirror device comprises a mirror layer, a frame structure, and an actuator layer. At least one mirror is movably coupled to the frame. The actuator layer includes at least one conductive path for moving the mirror. In accordance with the invention, the mirror is curved for efficiently directing and focusing reflected light. The mirror comprises a metal-coated base, and curvature can be achieved by doping selected regions of the base or by using coating/base combinations with sufficient mismatch that they be curved by differential thermal expansion. The resulting MEMs devices are advantageous for optical switching, variable attenuation and power gain equalization.

Abstract: In accordance with the invention, an optical cross-connect switch includes an optical router for distributing multi-wavelength optical input signals, an optical combiner for supplying multi-wavelength signals at the output ports of the switch, and optical fibers for interconnecting the optical router and optical combiner. Selected interconnecting optical fibers include controllable wavelength-selective elements, such as magnetically controllable fiber gratings, which are capable of transmitting or reflecting individual channels within the multi-wavelength optical signals so that a selected channel of a particular wavelength can be routed from any of the input ports to any of the output ports of the switch.

Abstract: The present invention provides a micro-electro-mechanical system (MEMS) optical device. The micro-electro-mechanical system (MEMS) optical device includes a mirror having a substrate with an implanted light reflective optical layer thereover, and a mounting substrate on which the mirror is movably mounted. The inclusion of the dopant within the light reflective optical layer increases the tensile stress of the device and tends to correct the concave curvature of the mirror structure toward a desirably flat configuration.

Abstract: A device for use in a micro-electro-mechanical system (MEMS) optical device. The device includes a substrate having opposing first and second sides and a diffusion barrier layer formed over at least the first side. The device further includes a light reflective optical layer formed over the diffusion barrier layer on the first side of the substrate. The second side may desirably have a stress balancing layer located thereover.

Abstract: A device for use in a micro-electro-mechanical system (MEMS) optical system. The device includes a substrate having opposing first and second sides, wherein the first side has a light reflective optical layer located thereover, and the second side is an irregular surface.

Abstract: A mirror, or an array of mirrors, for use in a micro-electro-mechanical system (MEMS) optical device. The mirror includes a mirror substrate having a loss-reducing layer located over a first or second side thereof, and a light reflective optical layer located over the loss-reducing layer. The inventive mirror reduces undesirable Fabry-Perot interferrometric optical loss through minimizing the extent of multiple reflections within the MEMS mirror substrate.

Abstract: A method for fabricating a reactive solder or braze includes forming a metallic matrix with an interior region and surface regions by actively providing a higher concentration of reactive atoms to the interior region than to the surface regions.

Abstract: In accordance with the invention, a MEMs device comprises a component layer, an actuator layer and an intervening spacer. The component layer, the spacer and the actuator layer are assembled at ambient temperature and held together in lateral alignment by resilient spring members. The spacer provides the walls of a cavity between a component and an actuator to permit movement of the component. The walls are advantageously conductive and cover the bulk of the peripheral boundary of the cavity to provide electrostatic isolation and aerodynamic isolation.

Abstract: The invention relates to use of a solder composition exhibiting a desired combination of high creep resistance at typical operating temperatures and low stress in formed solder joints. The invention uses a solder containing 82 to 85 wt. % Au, 12 to 14 wt. % Sn, and 3 to 4 wt. % Ga (optionally with up to 2 wt. % additional elements). The small amount of added Ga induces a significant depression in the liquidus temperatures of both Au and Sn, and thus a depressed melting point (about 27° C. less than eutectic Au—Sn solder), and also provides an enhanced temperature-sensitivity of the solder's creep resistance.

Abstract: A reduced CTE composite structure is made by providing a matrix material whose CTE is to be reduced, adding negative CTE bodies to the matrix material and mechanically coupling the matrix material to the negative CTE bodies as by deforming the composite structure. A preferred application is to make an improved composite material for use as a heat sink for semiconductor substrates with a minimum of thermal expansion mismatch.

Abstract: A solder composition that bonds well to oxides and other surfaces to which solder bonding is conventionally difficult is provided. The solder is particularly useful for reliable bonding and packaging of optical components that often have oxide surfaces. The solder composition exhibits a microstructure containing a solder matrix in which is distributed fine, micron-scale islands of rare-earth-containing intermetallic particles. The existence of the islands makes the rare earth elements better available for bonding, and reduce the extent to which the rare earths are oxidized. Advantageously, the solder contains Au and/or Ag, in which the rare earth elements tend to have some solid solubility. Due to this solubility, the Au and/or Ag tend to provide some additional protection of the rare earths against oxidation, and thereby also provide accelerated dissolution of the rare earth into the molten solder.

Abstract: The invention provides an article comprising a solder that bonds well to oxides and other surfaces to which solder bonding is problematic. The solder composition contains one or more rare earth elements, which react with the oxide or other surface to promote bonding, and further contains sufficient Au and/or Ag to act as carriers for the rare earths. Because rare earths have some solid solubility in Au and Ag, the problem of intermetallic formation is lessened or eliminated, and improved bonding to oxide surfaces is attained.

Abstract: A variable attenuator device is disclosed that may be magnetically and latchably controlled such that it does not require a continuous power supply to maintain a particular loss level. The variable attenuator comprises two optical components disposed in spaced apart relation to define a gap between them and a magnetic shutter positioned within the gap. The shutter is movable, due to its magnetic properties, from a first position to at least a second position, where the second position may be within, partially within, or outside of the gap. A mechanism is provided for magnetizing or actuating the shutter to cause it to move from the first position to the at least second position. When the shutter is in the first position, it causes a certain amount of attenuation in the signal being transmitted between the two optical components, and when it moves to the at least second position, a different amount of attenuation is caused, such that movement of the shutter causes a variation in the attenuation.