Abstract: Systems and methods are described for concurrently applying loads to multiple test specimens. The systems and methods are useful for cyclical tensile loading of specimens such as in fatigue strength evaluations. The systems and methods are also useful for low frequency cyclical loading evaluations.

Abstract: Systems and methods for controlling the temperature of small volumes such as yoctoliter volumes, are described. The systems include one or more plasmonic nanostructures attached at or near a nanopore. Upon excitation of the plasmonic nanostructures, such as for example by exposure to laser light, the nanoparticles are rapidly heated thereby causing a change in the ionic conductance along the nanopore. The temperature change is determined from the ionic conductance. These temperature changes can be used to control rapid thermodynamic changes in molecular analytes as they interact with the nanopore.

Abstract: A device and method for headspace sampling is disclosed herein. The headspace sampling device comprises a sample holding device configured to be sealed in a vial. The sample holding device has a pair of electrodes gap spaced from one another and a basket extending between the electrodes configured to hold a sample. The basket is configured to heat a sample held therewith and volatize at least a portion of the sample upon an electrical current being passed through the electrodes and the basket.

Abstract: Systems for selectively capturing and/or releasing particular vapors or odors are described. The systems utilize polymeric substrates such as in the shape of disks that can be infused with one or more target vapors or odors. The systems also utilize enclosures having one or more defined orifices. After placement of infused polymeric substrates within the interior of an enclosure, target agents evaporate or otherwise vapor transfer from the interior of the enclosure through the defined orifice(s) in a controlled and quantifiable manner.

Abstract: Devices and methods for screening emissive properties of a cell, such as the resistance to photobleaching or other photophysical property. In one example, a device may include a microfluidic reservoir having at least an input channel for receiving the cell, a main channel fluidly coupled with the input channel, at least a first output channel and a second output channel, the first and second output channels fluidly coupled with the main channel; and a multibeam interrogation section generating a plurality of light beams impinging upon the main channel of the microfluidic reservoir. As a cell passes from the input channel through the main channel of the microfluidic reservoir, the cell is exposed to the plurality of light beams thereby generating emissions that are received by a signal processing section. A cell trapping section selectively diverts the cell to the second output channel if the cell contains desired emissive properties.

Abstract: Fingerprint lifting systems and related methods are described which enable the collected print(s) to be subjected to analytical techniques that employ relatively high temperatures. The fingerprint lifting systems include a thin layer of a heat resistant pressure sensitive adhesive.

Abstract: A method for interlocking structural steel components with a metal-filled interlock is disclosed herein. The method comprises placing a mold about aligned contoured portions of structural steel components and attaching a crucible and a spout to the mold. The crucible is charged with exothermic reactive metals which are ignited, forming a molten metal filler. The molten metal filler melts a metal plug in the crucible or spout and the molten metal filler flows into the mold and about the aligned contoured portions of the structural steel components. Cooling of the molten metal filler forms a metal-filled interlock. Molds for performing the disclosed method are also disclosed herein.

Abstract: A method of comb-based spectroscopy with synchronous sampling for real-time averaging includes measuring the full complex response of a sample in a configuration analogous to a dispersive Fourier transform spectrometer, infrared time domain spectrometer, or a multiheterodyne laser spectrometer. An alternate configuration of a comb-based spectrometer for rapid, high resolution, high accuracy measurements of an arbitrary cw waveform.

Abstract: A coherent laser radar that uses two coherent femtosecond fiber lasers to perform absolute ranging at long distance. One coherent femtosecond fiber lasers acts as a source and the other as a local oscillator for heterodyne detection of the return signal from a cooperative target. The system simultaneously returns a time-of-flight range measurement for coarse ranging and an interferometric range measurement for fine ranging which is insensitive to spurious reflections that can cause systematic errors. The range is measured with at least 3 ?m precision in 200 ?s and 5 nm precision in 60 ms over a 1.5 m ambiguity range. This ambiguity range can be extended to 30 km through reversal of signal and LO source roles.

Abstract: Embodiments of the present invention provide an inexpensive and fast pulse characterization platform capable of real time operation, suitable for acquisition of single-photon data. Embodiments of the present invention include both a digital multi-channel data acquisition instrument and an analog pulse acquisition instrument suitable for a wide range of applications in physics laboratories. An FPGA performs multi-channel acquisition in real time, time stamps single events, and determines if the events fit a predetermined signature, which causes the events to be categorized as a coincidence. The indications of coincidences are then communicated to a host computer for further processing as desired.

Abstract: A variable temperature assembly for scanning probe microscopy (SPM) is described which minimizes or eliminates motion of the sample caused by the thermal expansion or contraction of the sample holder assembly and platform/scanning stage on which the assembly is mounted, and minimizes heating or cooling of the platform/stage. In heater form, the variable temperature assembly includes a thin boron nitride puck with one or more high-resistivity wires embedded along an underside of the puck. The puck is suspended from its polished top surface by posts that are secured to the microscope stage. All thermal expansion of the puck occurs in the downward direction, away from the SPM probe-sample interface, thus eliminating relative motion between the probe tip and sample surface. The top surface of the puck remains stationary as a result of the unique geometry of the posts and the puck-post attachment configuration described herein.

Abstract: Various plasmonic structures in the form of electrochromic optical switches are described which exhibit relatively high optical switching contrast. The switches generally include a collection of nanoslits formed in a thin electrically conductive film. An electrochromic material is disposed on the conductive film and along the sidewalls of the nanoslit(s).

Abstract: A cold cathode field emission electron source capable of emission at levels comparable to thermal sources is described. Emission in excess of 6 A/cm2 at 7.5 V/?m is demonstrated in a macroscopic emitter array. The emitter is comprised of a monolithic and rigid porous semiconductor nanostructure with uniformly distributed emission sites, and is fabricated through a room temperature process which allows for control of emission properties. These electron sources can be used in a wide range of applications, including microwave electronics and x-ray imaging for medicine and security.

Abstract: A scanning probe microscopy instrument includes a cantilevered tip that has a nanowire light emitting diode (LED).

Abstract: A nanofabrication process for use with a photoresist that is disposed on a substrate includes the steps of exposing the photoresist to a grayscale radiation pattern, developing the photoresist to remove a irradiated portions and form a patterned topography having a plurality of nanoscale critical dimensions, and selectively etching the photoresist and the substrate to transfer a corresponding topography having a plurality of nanoscale critical dimensions into the substrate.

Abstract: A hydrogen storage material is provided, the hydrogen storage material comprises a hydride-forming solid disposed in a film, a hydrogen-diffusing solid media disposed in the film with the hydride-forming solid, and a high density of interfaces between the hydride-forming solid and the hydrogen-diffusing solid media in the film. The hydrogen storage material may be made by co-depositing the hydride-forming solid and the hydrogen-diffusing solid media to form the film having different solid phases of the hydride-forming solid and the hydrogen-diffusing solid media and a high density of interfaces therebetween.

Abstract: A thin film photovoltaic device with back contacts is disclosed. The thin film photovoltaic device may comprise 1) a first contact disposed in a first layer and having an upper surface and a lower surface; 2) a first semiconductor disposed in a second layer and having a lower surface disposed on the upper surface of the first contact; 3) an insulator or second semiconductor disposed in a third layer and on an upper surface of the first semiconductor; 4) a second contact disposed in a fourth layer and on the insulator or second semiconductor; and 5) an absorber disposed in a fifth layer and about the second contact. The absorber may comprise a p-type or a n-type semiconductor and the first semiconductor may comprise the other of the p-type and n-type semiconductor. The second contact may be patterned.

Abstract: Various aspects are described for selectivity capturing cells or bioparticles on designated surfaces in dielectrophoretic systems and processes. A particular adhesive composition is described for enhancing cell retention. In addition, certain permeable polyester membranes used in the systems and processes are also described.

Abstract: An oxygen sensor comprising an oxygen sensing compound and configured to substantially mitigate leaching of the oxygen sensing compound from the oxygen sensor to an outer surface thereof is provided. The oxygen sensor may comprise one or more layers. A first portion of the oxygen sensor is configured to be permeable to gas and comprises an oxygen sensing material. A second portion is disposed with or on the first portion and is configured to be permeable to gas and substantially impermeable to the oxygen sensing material.

Abstract: The present invention relates to a method of rapidly and repeatably bringing sharp objects into close proximity to a particular region of interest of a sample with high precision and accuracy in two or three dimensions using a laser guided tip approach with three dimensional registration to the surface.