Abstract: In an embodiment, a system includes a plurality of sensor devices contained in a plurality of wells contained in a well-plate assembly. The sensor devices are used in a plurality of oscillators. Each oscillator generates a frequency and a resistance based on a quality of living biological cells contained in a corresponding well. The quality may include, for example, surface coupled mass, density, viscosity, and/or viscoelasticity of the living biological cells. The system also includes logic for measuring a resonant frequency and motional resistance associated with each sensor device and logic for processing the measured resonant frequency and motional resistance. Moreover, the system includes logic for displaying one or more graphs showing one or more characteristics of the living biological cells contained in the wells.

Abstract: According to one configuration, an acoustical device includes a piezoelectric substrate and at least one curved electrode. Material on a surface of the piezoelectric substrate defines boundaries of a resonance region. The curved electrode is disposed on the piezoelectric substrate in the resonance region and is operable to receive a voltage input signal through a first conductive waveguide. When present, the voltage input signal causes generation and conveyance of acoustical waves from the curved electrode into the resonance region. The acoustical device optionally includes a second curved electrode in the resonance region, which converts the acoustical waves present in the resonance region to an output voltage signal.

Abstract: According to one configuration, an acoustical device includes a piezoelectric substrate and at least one curved electrode. Material on a surface of the piezoelectric substrate defines boundaries of a resonance region. The curved electrode is disposed on the piezoelectric substrate in the resonance region and is operable to receive a voltage input signal through a first conductive waveguide. When present, the voltage input signal causes generation and conveyance of acoustical waves from the curved electrode into the resonance region. The acoustical device optionally includes a second curved electrode in the resonance region, which converts the acoustical waves present in the resonance region to an output voltage signal.

Abstract: In an embodiment, a system includes a plurality of sensor devices contained in a plurality of wells contained in a well-plate assembly. The sensor devices are used in a plurality of oscillators. Each oscillator generates a frequency and a resistance based on a quality of living biological cells contained in a corresponding well. The quality may include, for example, surface coupled mass, density, viscosity, and/or viscoelasticity of the living biological cells. The system also includes logic for measuring a resonant frequency and motional resistance associated with each sensor device and logic for processing the measured resonant frequency and motional resistance. Moreover, the system includes logic for displaying one or more graphs showing one or more characteristics of the living biological cells contained in the wells.

Abstract: In one embodiment according to the invention, there is provided a method of sensing a response of a living cell or virus to a change in conditions. The method comprises applying an essentially constant external electromotive force that causes oscillation of an acoustic wave device at essentially constant amplitude and frequency under steady state conditions. The acoustic wave device has attached at least one living cell or virus. A combined oscillating system including the acoustic wave device and the living cell or virus exhibits a fundamental frequency and at least one harmonic frequency of the combined oscillating system.

Abstract: A method of forming ceramic pattern structures of silicon carbide film includes depositing an electron-beam resist or a photo-resist onto a substrate. A portion of the resist is selectively removed from the substrate to form a resist pattern on the substrate. A film of pre-ceramic polymer that includes silicon and carbon is deposited onto the substrate and resist pattern and the pre-ceramic polymer film is cured. A portion of the cured pre-ceramic polymer film on the resist pattern is removed, thereby forming a pre-ceramic polymer pattern on the substrate. The pre-ceramic polymer pattern is then converted to a ceramic pattern.

Abstract: A method of forming ceramic pattern structures of silicon carbide film includes depositing an electron-beam resist or a photo-resist onto a substrate. A portion of the resist is selectively removed from the substrate to form a resist pattern on the substrate. A film of pre-ceramic polymer that includes silicon and carbon is deposited onto the substrate and resist pattern and the pre-ceramic polymer film is cured. A portion of the cured pre-ceramic polymer film on the resist pattern is removed, thereby forming a pre-ceramic polymer pattern on the substrate. The pre-ceramic polymer pattern is then converted to a ceramic pattern.

Abstract: In one embodiment according to the invention, there is provided a method of sensing a response of a living cell or virus to a change in conditions. The method comprises applying an essentially constant external electromotive force that causes oscillation of an acoustic wave device at essentially constant amplitude and frequency under steady state conditions. The acoustic wave device has attached at least one living cell or virus. A combined oscillating system including the acoustic wave device and the living cell or virus exhibits a fundamental frequency and at least one harmonic frequency of the combined oscillating system.

Abstract: A method for testing a semiconductor device wherein an image produced from secondary electron emissions generated by exposing a cross section of the device to a beam of electrons with such device being in a first biased condition, preferably an unbiased condition, is digitally recorded in a memory of a digital computer. An image is produced from secondary electron emissions generated by exposing a cross section of the device to a scanning beam of electrons with such device being in a second biased condition is digitally recorded in the memory of the digital computer. The recorded images are digitally subtracted one from the other in the digital computer to produce a difference image. The digital computer digitally calculates a quantitative measure of voltage distribution across the exposed cross section from two regions in the difference image having different degrees of secondary electron emissions. The digital computer displays one of the digitally recorded images on a video display.

Abstract: An amusing puzzle made up of a plurality of cube-shaped pieces, which form a unitary cube when the puzzle is properly solved. Each puzzle piece contains at least one permanent two-pole magnet which, when the puzzle is properly solved, is attracted to the corresponding pole of the magnet contained within the adjoining puzzle piece, thereby holding the puzzle pieces together in order to form the unitary cube.

Abstract: An amusing puzzle made up of a plurality of cube-shaped pieces, which form a unitary cube when the puzzle is properly solved. Each puzzle piece contains at least one permanent two-pole magnet which, when the puzzle is properly solved, is attractedly engaged with the corresponding pole of the magnet contained within the adjoining puzzle piece, thereby holding the puzzle pieces together in order to form the unitary cube.