Abstract: Neuroelectronic devices are disclosed which use charge-coupled detector array devices to stimulate, monitor and record neural network activity and response. The method and apparatus described herein uses vacuum-arc-plasma based methods of surface modification as a tool for forming large patterned neuronal arrays on substrates. The basic device features a charge coupled detector device array (CCD) having a thin protective film over the CCD, a thin patterned film to promote neuron growth, and an insulator. Methods for stimulating and monitoring stimulated and spontaneous electrical activity in individual neurons of the array can be carried out by the apparatus described.

Abstract: Cathodic arc plasmas are contaminated with macroparticles. A variety of magnetic plasma filters has been used with various success in removing the macroparticles from the plasma. An open-architecture, bent solenoid filter, with additional field coils at the filter entrance and exit, improves macroparticle filtering. In particular, a double-bent filter that is twisted out of plane forms a very compact and efficient filter. The coil turns further have a flat cross-section to promote macroparticle reflection out of the filter volume. An output conditioning system formed of an expander coil, a straightener coil, and a homogenizer, may be used with the magnetic filter for expanding the filtered plasma beam to cover a larger area of the target. A cathodic arc plasma deposition system using this filter can be used for the deposition of ultrathin amorphous hard carbon (a-C) films for the magnetic storage industry.

Abstract: A system and method for measuring ampoule liquid level are presented. A buoy is arranged entirely within and detached from the ampoule. The buoy contains enough matter having a density less than that of the liquid to maintain flotation of the buoy, and has an exterior surface formed from a non-reactive material. The buoy is further designed to not interfere with any inlet or outlet structures of the ampoule. At least one magnet is displaced within the buoy such that the magnet is located near the ampoule's interior wall when the buoy is arranged within the ampoule. At least one sensor strip is located along the height of and entirely outside of the ampoule's interior wall, and at least one electronic sensor, containing at least one magnetically actuated switch, is located within each sensor strip. The electronic sensor may also contain a visible indicator and/or a resistor. The electronic sensor may be electronically connected to at least one separate system.

Abstract: A process for producing an article with improved ceramic surface properties including providing an article having a ceramic surface, and placing the article onto a conductive substrate holder in a hermetic enclosure. Thereafter a low pressure ambient is provided in the hermetic enclosure. A plasma including ions of solid materials is produced the ceramic surface of the article being at least partially immersed in a macroparticle free region of the plasma. While the article is immersed in the macroparticle free region, a bias of the substrate holder is biased between a low voltage at which material from the plasma condenses on the surface of the article and a high negative voltage at which ions from the plasma are implanted into the article.

Abstract: A miniature (dime-size in cross-section) vapor vacuum arc plasma gun is described for use in an apparatus to produce thin films. Any conductive material can be layered as a film on virtually any substrate. Because the entire apparatus can easily be contained in a small vacuum chamber, multiple dissimilar layers can be applied without risk of additional contamination. The invention has special applications in semiconductor manufacturing.

Abstract: Surface modification of magnetic recording heads using plasma immersion ion implantation and deposition is disclosed. This method may be carried out using a vacuum arc deposition system with a metallic or carbon cathode. By operating a plasma gun in a long-pulse mode and biasing the substrate holder with short pulses of a high negative voltage, direct ion implantation, recoil implantation, and surface deposition are combined to modify the near-surface regions of the head or substrate in processing times which may be less than 5 min. The modified regions are atomically mixed into the substrate. This surface modification improves the surface smoothness and hardness and enhances the tribological characteristics under conditions of contact-start-stop and continuous sliding. These results are obtained while maintaining original tolerances.

Abstract: A low temperature process is disclosed for forming metal suboxides on substrates by cathodic arc deposition by either controlling the pressure of the oxygen present in the deposition chamber, or by controlling the density of the metal flux, or by a combination of such adjustments, to thereby control the ratio of oxide to metal in the deposited metal suboxide coating. The density of the metal flux may, in turn, be adjusted by controlling the discharge current of the arc, by adjusting the pulse length (duration of on cycle) of the arc, and by adjusting the frequency of the arc, or any combination of these parameters. In a preferred embodiment, a low temperature process is disclosed for forming an electrically conductive metal suboxide, such as, for example, an electrically conductive suboxide of titanium, on an electrode surface, such as the surface of a nickel oxide electrode, by such cathodic arc deposition and control of the deposition parameters.

Abstract: Surface modification of magnetic recording heads using plasma immersion ion implantation and deposition is disclosed. This method may be carried out using a vacuum arc deposition system with a metallic or carbon cathode. By operating a plasma gun in a long-pulse mode and biasing the substrate holder with short pulses of a high negative voltage, direct ion implantation, recoil implantation, and surface deposition are combined to modify the near-surface regions of the head or substrate in processing times which may be less than 5 min. The modified regions are atomically mixed into the substrate. This surface modification improves the surface smoothness and hardness and enhances the tribological characteristics under conditions of contact-start-stop and continuous sliding. These results are obtained while maintaining original tolerances.

Abstract: A waveguide is provided which can include a bearing supporting a probe or other equipment for rotation. In order to prevent particles of the waveguide metal or waveguide cleaning materials embedded in the metal from entering the bearing, a window is fitted across the waveguide at a selected position between two waveguide sections or at each of a number of positions, the window being transparent to microwave transmission, being capable of transmitting pressure and being capable of filtering particles of a diameter in excess in 0.005 inch (0.013 cm).

Abstract: An apparatus and method for coating or layering a surface with a metal utilizing a metal vapor vacuum arc plasma source. The apparatus includes a trigger mechanism for actuating the metal vacuum vapor arc plasma source in a pulsed mode at a predetermined rate. The surface or substrate to be coated or layered is supported in position with the plasma source in a vacuum chamber. The surface is electrically biased for a selected period of time during the pulsed mode of operation of the plasma source. Both the pulsing of the metal vapor vacuum arc plasma source and the electrical biasing of the surface are synchronized for selected periods of time.

Abstract: An ion source utilizing a cathode and anode for producing an electric arc therebetween. The arc is sufficient to vaporize a portion of the cathode to form a plasma. The plasma leaves the generation region and expands through another regon. The density profile of the plasma may be flattened using a magnetic field formed within a vacuum chamber. Ions are extracted from the plasma to produce a high current broad on beam.

Abstract: An ion generating apparatus utilizing a vacuum chamber, a cathode and an anode in the chamber. A source of electrical power produces an arc or discharge between the cathode and anode. The arc is sufficient to vaporize a portion of the cathode to form a plasma. The plasma is directed to an extractor which separates the electrons from the plasma, and accelerates the ions to produce an ion beam. One embodiment of the appaatus utilizes a multi-cathode arrangement for interaction with the anode.

Abstract: A sheet feeder for dealing with simplex or duplex copy sheets from a copier or like reprographic machine uses four rollers forming three sheet-feeding nips. All sheets enter the central nip: on leaving it they are selectively diverted into one or other of two sheet pockets, from which they bounce or are otherwise fed back into an aligned other nip. Sheets passing through one outer nip may be fed to an output tray, while those passing through the other nip may go back into the machine for further processing.

Abstract: An ion generating apparatus utilizing a vacuum chamber, a cathode and an anode in the chamber. A source of electrical power produces an arc or discharge between the cathode and anode. The arc is sufficient to vaporize a portion of the cathode to form a plasma. The plasma is directed to an extractor which separates the electrons from the plasma, and accelerates the ions to produce an ion beam.

Abstract: A copier for duplex copying in which blank sheets are fed from a copy sheet tray (41) to a photoreceptor (11) to receive a first image on one side and the simplex copy sheets so formed are conveyed to a duplex buffer tray (43) from which they are refed to the photoreceptor to receive a second image on the other side. The buffer tray (43) is arranged so that the simplex sheets are inserted into it lead edge first in the same direction (right-to-left) in the drawing in which they leave the photoreceptor and are refed trail edge first along a folded path between the buffer tray and the photoreceptor so that the sheets are inverted once between the buffer tray and the photoreceptor. As illustrated the buffer tray (43) is arranged beneath the photoreceptor and the copy tray (41) is arranged beneath the buffer tray (43). A double folded path (55) for returning simplex sheets to the buffer tray is provided between the photoreceptor and the buffer tray.

Abstract: A copier is described which is capable of simplex and duplex copying which includes a photoreceptor (11), first and second copy sheet trays (41 and 42) and a duplex buffer tray (43). A first sheet feeder (46) is associated with the first copy sheet tray (41) and a second sheet feeder (45) is commonly associated with the duplex buffer tray (43) and the second copy sheet tray (42). The trays (42, 43) are relatively movable for operatively associating them only one at a time with the second feeder (45). A control is provided for selecting sheet feeding from one of the copy sheet trays (41, 42) and further for controlling the trays such that during duplex copying copy sheets are fed only from the first copy sheet tray (41) and only the buffer tray (43) is operatively associated with the common sheet feeder (45).

Abstract: A duplex copying machine is provided with an open operator-accessible buffer storage tray and appropriate sheet feeding means to feed paper through the machine. In duplexing mode, sheet feeding takes place from the buffer storage tray instead of the main paper supply store.