Abstract: A method and apparatus for simultaneous fracture and fatigue testing of a semiconductor wafer which includes installing an array of cantilever beams on the wafer, wherein each of the cantilever beams includes a proof mass; mounting the wafer on a base; actuating the base at a predetermined rate of motion causing a displacement of the proof mass; and measuring the displacement. The actuating causes the array to oscillate in a direction perpendicular to the wafer, wherein the displacement of the proof mass is generally perpendicular to a plane of the wafer. Alternatively, the actuating causes the array to rotate around a center of the array, wherein the displacement of the proof mass is generally parallel to a plane of the wafer. The displacement is a function of mechanical stress and strain in the cantilever beams, wherein the mechanical stress and strain causes any of fracture and fatigue of the cantilever beams.

Abstract: A planer reader and method of probing the magnetic permeability of a material using a magnetic flux circuit comprises a substrate; a near-circular soft magnetic layer adjacent to the substrate; a gap configured in the soft magnetic layer, wherein the gap creates an opening between two ends of the soft magnetic layer, and wherein the gap is configured to align with a material located a distance from the soft magnetic layer; a magnetic flux generator adapted to provide magnetic flux to the material; and a magnetic sensor adapted to measure the magnetic flux traversing the material. The circuit further comprises an insulator covering the soft magnetic layer, the gap, the magnetic flux generator, and the magnetic sensor. The magnetic flux generator comprises a magnet or a magnetic coil proximate to the soft magnetic layer. Moreover, the soft magnetic layer comprises a soft ferromagnet. In one embodiment, the substrate is flexible.

Abstract: A method of fabricating a MEMS device includes forming a magnetic sensor over a SOI wafer which may include an epoxy layer; forming a pair of MEMS flux concentrators sandwiching the magnetic sensor; connecting an electrostatic comb drive to each of the flux concentrators; connecting a spring to the flux concentrators and the comb drive; performing a plurality of DRIE processes on the SOI wafer; and releasing the flux concentrators, the comb drive, and the spring from the SOI wafer. Another embodiment includes forming adhesive bumps and a magnetic sensor on a first wafer; forming a second wafer; forming a pair of MEMS flux concentrators, a pair of electrostatic comb drives, and at least one spring on the second wafer; bonding the second wafer to the adhesive bumps; and compressing the adhesive bumps using non-thermal means such as pressure only.

Abstract: A MEMS device and method of manufacturing comprises a magnetic sensor attached to a frame; at least one magnet adjacent to the magnetic sensor; a proof mass attached to the magnet; a cantilever beam attached to the proof mass; and a rod attached to the cantilever beam and the frame, wherein the magnet is adapted to rotate about a longitudinal axis of the rod. The proof mass comprises a portion of a SOI wafer. An acceleration of the frame causes the magnet to move relative to the frame and the magnetic sensor. An acceleration of the frame causes the connecting member to bend. The motion of the magnet causes a change in a magnetic field at a position of the magnetic sensor, wherein the change in the magnetic field is detected by the magnetic sensor, and wherein a sensitivity of detection of the acceleration of the device is approximately 0.0001 g.

Abstract: The present invention provides a ballistic testing recovery apparatus and method for allowing post impact analysis of pyrophoric projectile debris wherein the apparatus comprises a containment chamber having an interior volume filled with a solvent-soluble granulated material. The containment chamber is formed with an aperture in a side wall for receiving a launched projectile therethrough. The projectile impacts a target plate disposed in the containment box and projectile debris is thereafter ejected into the surrounding solvent-soluble granulated material. The solvent-soluble granulated material operates to capture and quench the projectile debris before devitrification and/or crystallization erodes the “as-ejected” characteristics of the pyrophoric projectile debris.

Abstract: A delay line is made by sandwiching a thin slice of ferroelectric between two “cladding” layers of relatively low-?, low loss material to form a dielectric slab waveguide, and may support the propagation of electromagnetic guided waves and hence be used as a source of electric-field tunable time delay. There is a frequency range within which a dielectric-slab delay line behaves like a homogeneous transmission line with an “average” dielectric constant that is much lower than that of the ferroelectric, thereby ameliorating the difficulty with the high dielectric constant of the ferroelectric material. The thin slice of ferroelectric material “expels” a large fraction of the wave electric field, causing most of it to occupy the low-loss cladding material, greatly reducing the propagation loss along the delay line while allowing delay time to be varied by applying an electric-field through the ferroelectric within the cladding structure.

Abstract: A vacuum assisted resin transfer molding (VARTM) process wherein a preform, release film, distribution medium layer, resin inlet(s), vacuum outlet(s), and vacuum bag(s) are positioned on a mold. After the resin has fully impregnated the preform by a vacuum process, the resin feed source is closed and a vacuum crossover line is opened. The resin inlet(s) are then used as a vacuum source to continue the process of removal of the excess resin. Further, secondary vacuum outlets may be placed on the preform to aid in the removal of excess resin after resin impregnation. This imposes a uniform vacuum pressure across the preform to improve the structural characteristics such as the fiber volume fraction and the compaction of the wetted preform over the conventional VARTM process.

Abstract: One embodiment of the system is implemented as an aircraft comprising a rotor. For example, the aircraft may be a helicopter. This embodiment also comprises an acoustic source, wherein this acoustic source comprises an acoustic signature of the aircraft. This particular embodiment also comprises an acoustic collection device affixed to the aircraft. The acoustic collection device preferably comprises an array of microphones. Finally, this embodiment also has a data processing device, such as a computer, for collecting the data detected by the microphones and processing this data. In operation, the aircraft is flown for a distance along a path while the aircraft emits acoustic energy. Then, the microphones detect the acoustic energy that is reflected off the terrain. Optionally, the detected energy may be stored as data and processed, so that noise may be reduced and a terrain image may be formed.

Abstract: An electro spinning process yields uniform, nanometer diameter polymer filaments. A thread-forming polymer is extruded through an anodically biased die orifice and drawn through an anodically biased electrostatic field. A continuous polymer filament is collected on a grounded collector. The polymer filament is linearly oriented and highly uniform in quality. The filament is particularly useful for weaving body armor, for chemical/biological protective clothing, as a biomedical tissue growth support, for fabricating micro sieves and for microelectronics fabrication.

Abstract: Disclosed are a semiconductor device and method of manufacturing the same comprising a substrate, a mesa region adjacent to the substrate, an electroplated metal layer, for reducing the thermal resistance of the device, surrounding the mesa region, an insulator layer separating a side portion of the mesa region from the electroplated metal layer, a heat sink, a bonding layer adjacent to the heat sink, and a second metal layer in between the substrate and the heat sink, wherein the substrate is adjacent to the bonding layer, and wherein the electroplated metal layer dimensioned and configured to have a thickness of at least half a thickness of the mesa region; and to laterally spread heat away from the mesa region. The mesa region comprises a first cladding layer adjacent to the substrate, an active region adjacent the first cladding layer, and a second cladding layer adjacent to the active region.

Abstract: A microelectromechanical system (MEMS) device comprising a base structure; a magnetic sensor attached to the base structure and operable for sensing a magnetic field and allowing for a continuous variation of an amplification of the magnetic field at a position at the magnetic sensor; and for receiving a DC voltage and an AC modulation voltage in the MEMS device; a pair of flux concentrators attached to the magnetic sensor; and a pair of electrostatic comb drives, each coupled to a respective flux concentrator such that when the pair of electrostatic comb drives are excited by a modulating electrical signal, each flux concentrator oscillates linearly at a prescribed frequency; and a pair of bias members (mechanical spring connectors) connecting the flux concentrators to one another.

Abstract: A transparent aluminum oxynitride product is produced by a first heat treating step wherein a combination of Al2O3 and AlN at a temperature within the solid-liquid phase and a second step of sintering the heat treated combination at a temperature at least 50° C. less than the heat treating temperature. The method introduces a small fraction of liquid that aids in pore elimination and densification. In a single step, the material is shifted from the liquid/solid region into a solid AlON solution region, wherein the liquid is fully reacted with the solid AlON phase, with further sintering occurring. The procedure is sufficient to eliminate voids and other imperfections which often result in a reduction in optical clarity.

Abstract: Disclosed is a method of determining causes of intrinsic oscillations in a double-barrier quantum-well intrinsic oscillator comprising developing an emitter quantum-well (EQW) from a double-barrier quantum-well system (DBQWS); coupling the EQW to a main quantum-well (MQW), wherein the MQW is defined by double-barrier heterostructures of a resonant tunneling diode; using energy subband coupling to induce quantum-based fluctuations in the EQW; creating intrinsic oscillations in electron density and electron current in the DBQWS; forming a distinct subband structure based on the intrinsic oscillations; and identifying a THz-frequency signal source based on the quantum-based fluctuations, wherein the intrinsic oscillations comprise maximum subband coherence, partial subband coherence, and minimum subband coherence, wherein the energy subband is a quantum mechanical energy subband, wherein the intrinsic oscillations occur proximate to a bias voltage point in the range of 0.224 V and 0.

Abstract: A method of producing a field emission device includes laying a group III-nitride semiconductor layer over a substrate, placing a photoresist mask over the group III-nitride semiconductor layer, patterning a generally circular grid in the photoresist mask and the group III-nitride semiconductor layer, and forming the group III-nitride semiconductor layer into generally pointed tips using an inductively coupled plasma dry etching process, wherein the group III-nitride semiconductor layer comprises a group III-nitride semiconductor material having a low positive electron affinity or a even a negative electron affinity, wherein the inductively coupled plasma dry etching process selectively creates an anisotropic deep etch in the group III-nitride semiconductor layer, and wherein the inductively coupled plasma dry etching process creates an isotropic etch in the group III-nitride semiconductor layer. Preferably, the photoresist layer is approximately 1.

Abstract: An apparatus, system, and method for probing magnetic permeability of a material located a distance from the apparatus comprises a first hard ferromagnetic layer, a second hard ferromagnetic layer, a first soft ferromagnetic layer, a second soft ferromagnetic layer, an intermediate layer disposed between the first hard ferromagnetic layer and the first soft ferromagnetic layer, an insulating layer between the first soft ferromagnetic layer and second soft ferromagnetic layer, and a spacer layer disposed between the second soft ferromagnetic layer and the second hard ferromagnetic layer, wherein the second soft ferromagnetic layer increases an on/off ratio of a magnetic field in the first soft ferromagnetic layer, wherein the on/off ratio is approximately 1.6, and wherein the second soft ferromagnetic layer pulls a magnetic field of the apparatus into the first soft ferromagnetic layer.

Abstract: Burnout resistance ferroelectric material is used in the feedback path of a microwave oscillator as a frequency control element. The ferractor has rapid broadband frequency tuning capabilities limited only by the speed of an external DC source.

Abstract: A system and method for optimizing transmission of radio frequency communication link signals in a radio frequency communications network comprises determining a statistical difference between a mean radio frequency communication link propagation loss value based on a set of measured radio frequency communication link propagation loss values, and a radio frequency communication link propagation loss model value; calculating a signal to noise ratio of a radio frequency communication link signal; computing a confidence interval based on a measured signal to noise threshold ratio of a measured radio frequency communication link signal, and a standard deviation associated with the calculated signal to noise ratio; assigning a probability value based on the confidence interval; and generating a radio frequency communication link packet completion rate performance level based on the probability value. The transmission of radio frequency communication link signals occurs in either jamming or no jamming situations.

Abstract: A system for determining position coordinates and attitude coordinates of a moving object employs a plurality of transmitters that transmit navigation signals, the transmitters having known positions and orientations in a given coordinate system. A single antenna that is carried by the moving object receives signals associated with far-field regions of electromagnetic fields of the navigation signals transmitted from the transmitters. A satellite receiver that is carried by the moving object obtains the signals received by the antenna. Phase difference circuitry derives a phase difference between an open circuit voltage of the antenna and a reference phase of a local oscillator in the receiver. A calculation circuit calculates position coordinates and three-dimensional attitude coordinates, within the given coordinate system, of the antenna relative to the transmitters based on the known positions and orientations of the transmitters and the phase difference obtained by the phase difference circuitry.

Abstract: A SiC gate turn-off (GTO) thyristor that exhibits improved greatly performance includes a p-type anode region, a n-type gated base region positioned beneath the anode region, a n-type drift region positioned beneath the gated base region and doped to a lower concentration of donors than that of the gated base region, a p-type buffer region positioned beneath the n-type drift region and doped with acceptors to a concentration whose magnitude lies between the doping concentration of the anode region and the drift region, and an n-type substrate positioned beneath the buffer region. In another aspect of the invention of this application, a silicon or silicon carbide gate-turn-off thyristor includes a GTO thyristor structure with a thick buffer layer having a high, free-carrier recombination rate.

Abstract: Methods and systems for tracking a magnetic object are disclosed. A plurality of line segments can be complied based on data received from a plurality of magnetic sensors. The line segment that minimizes an error thereof can then be determined. The path of a magnetic object can then be established based on the compiled line segments and calculated error thereof, thereby permitting the magnetic object to be tracked according to the data received from the magnetic sensors, which can be based on the closest of approach of one or more of the magnetic sensors to the magnetic object. The present invention can thus permit a magnetic object to be tracked utilizing the total magnetic field measured at a position of closest approach by the magnetic object to one or more magnetic sensors from among a group of magnetic sensors.