Patent ID: 6217720
Filing Date: 2001-04-17
Classification: C23C

Abstract:
A method of sputter depositing on a substrate a complex multilayer coating consisting of multiple layers of at least two materials, said method comprising the steps of sequentially depositing said layers in a deposition chamber in the presence of a reactive gas and an inert gas so as to form accumulated deposited layers, at least an initial portion of each said layer being deposited at a high rate of above about 0.5 nm/s; deriving the thickness of the deposited layers at one or more times during the deposition of each layer by taking optical measurements over a plurality of wavelengths and fitting theoretical values for said measurements derived from a theoretical model of the accumulated deposited layers to corresponding measured values obtained from said measurements; determining whether a derived thickness of a current layer being deposited corresponds to a target thickness for said current layer, and if so proceeding with a next subsequent layer of the second of said at least two materials, otherwise continuing with the deposition of any remaining thickness at a lower rate than said high rate of said current layer, continually controlling a flow rate of said reactive gas as each deposited layer is formed to strive to stabilize partial pressure of said reactive gas at a constant value to maintain stoichiometry and thereby ensure substantial homogeneity in reactive index in a thickness dimension throughout the whole of each deposited layer of the same material so that a valid thickness determination can be made from said theoretical model; saving the flow rate of said reactive gas at the end of high rate deposition for each deposition step as a saved final value; and for each subsequent deposited layer of each material setting the initial flow rate of the reactive gas at the saved final value of the flow rate at the end of high rate deposition for the previous layer deposited of the same material so as to reduce restabilization time for each said subsequent deposited layer.