Abstract: A Metal Organic Chemical Vapor Deposition (MOCVD) system particularly suitable for use at low deposition pressures and high or low temperatures. The system includes a reactor chamber having a reactant gas distribution unit (showerhead) which may be height adjustable having a temperature control chamber, for controlling the temperature of the reactants, a chamber for providing a uniform flow of carrier gas and a gas distribution chamber which includes baffling which can preclude gas phase mixing of the reactants. The gas distribution unit also includes an integral plasma generating electrode system for providing plasma enhanced deposition with controlled distribution of reactants. Also located in the reactor chamber is a temperature control unit for heating and/or cooling the wafers and a non-levitating rotating wafer carrier.
Abstract: A process for depositing carbon nitride films on substrates or work pieces by means of plasma assisted energy controlled ion beam deposition. The process produces microscopically smooth, nearly stress free, insulating and transparent carbon nitride thin films at room (or elevated) temperature. In the process the substrate, tool or other component to be coated is placed in a vacuum chamber at room temperature and is acted upon by a source of negative carbon ions and a high flux plasma source of nitrogen radicals. The source of C.sup.- ions is hydrogen free and provides particle energies suitable for the production of films of high quality carbon nitride. The source of the nitrogen flux provides a high density of nitrogen radicals to interact with the C.sup.- ion beam and coat the substrate with carbon nitride. In a further embodiment of the process, which provides an even higher deposition rate, a source of N.sup.+ is added which provides charge neutralization and surface nitridation prior to deposition.