Patent ID: 8038896
Filing Date: 2011-10-18
Classification: H01J,H01L,H05H

Abstract:
1. A plasma processing method for performing plasma processing of plural substrates in a plasma processing apparatus, said apparatus being provided with: a plasma processing chamber having an antenna electrode and a lower electrode for placing and retaining said plural substrates in turn within said plasma processing chamber, a gas feeder for feeding processing gas into said processing chamber, a vacuum pump for discharging gas from said processing chamber via a vacuum valve, and a solenoid coil for forming a magnetic field within said processing chamber, wherein said plasma processing method comprises: after wet cleaning, placing plural dummy wafers on said lower electrode in turn, feeding said processing gas into said processing chamber, feeding RF power to said antenna electrode via a matching network to produce a plasma within said processing chamber, in which a magnetic field has been formed by said solenoid coil, and performing seasoning repeatedly using said dummy wafers, wherein an end of seasoning discharge is determined and processing of dummy wafers stops when in a course of said plasma processing, at least two conditions of the following conditions (1) to (6) have been met concurrently: (1) an opening of said vacuum valve has decreased to a steady value with plasma processing time, (2) a time required to have an internal pressure of said processing chamber reduced to a predetermined vacuum pressure when a residual gas in the processing chamber is discharged by a vacuum pump after completion of each plasma discharge has decreased to a steady value with plasma processing time, (3) a matching electrostatic capacitance of a capacitor, which is a component of said matching network, has increased to a steady value with plasma processing time, (4) a time required until ignition of said plasma from said feeding of said RF power to said antenna electrode via said matching network has decreased to a steady value with plasma processing time, (5) with plasma processing time, scattering of an electrostatic chuck voltage to be fed to said lower electrode has decreased and said electrostatic chuck voltage has increased to a steady value, and (6) a flow rate of heat transfer gas to be fed between said lower electrode and said at dummy wafers placed on said lower electrode has decreased to a steady value with plasma processing time.