Wafer temperature measurement in a rapid thermal processor with modulated lamp power

Abstract

Pyrometry methods utilizing modulated lamp power (“ripple”) were used to improve wafer temperature measurement and control in rapid thermal processing (RTP) for silicon integrated circuit production. Data from a manufacturing line where ripple pyrometers have been tested show significantly reduced wafer to wafer and lot to lot variations in final test electrical measurements and increased yields of good chips per wafer. The pyrometers, an outgrowth of Accufiber’s ripple technique, are used to compensate for ordinary production variations in the emissivities of the backsides of wafers, which face the pyrometers. Power to the heating lamps is modulated with oscillatory functions of time at either the power line frequency or under software control. Fluctuating and quasi-steady components in detected radiation are analyzed to suppress background reflections from the lamps and to correct for effective wafer emissivity. Sheet resistances of annealed wafers with high dose shallow As implants were used to infer temperature measurement capability over a range in backside emissivity. Emissivities are varied when depositing or growing one or more layers of silicon dioxide, silicon nitride, or polycrystalline silicon on the backsides of the wafers.