AVS 53rd International Symposium
    Plasma Science and Technology Wednesday Sessions
       Session PS1-WeA

Paper PS1-WeA8
Frequency Dependent Ion Kinetics in a 300 mm Dual-Frequency Capacitively Coupled Plasma Reactor

Wednesday, November 15, 2006, 4:20 pm, Room 2009

Session: Plasma-Wall Interactions and Plasma Sources
Presenter: G.A. Hebner, Sandia National Laboratories
Authors: G.A. Hebner, Sandia National Laboratories
E.V. Barnat, Sandia National Laboratories
P.A. Miller, Sandia National Laboratories
A.M. Paterson, Applied Materials
J.P. Holland, Applied Materials
Correspondent: Click to Email
Argon ion kinetics were measured in a dual frequency, capacitively coupled 300 mm chamber. Laser induced fluorescence measurements of the argon ion metastable lineshape yield information on the ion temperature, density and drift velocity. The spatially-resolved LIF technique is a nonperturbative probe to investigate energy deposition mechanisms, ion energy distribution functions, charge exchange reactions, neutral heating, and plasma potential gradients within the plasma. This talk will discuss ion characteristics for a single rf frequency drive (13, 60 and 160 MHz), combinations of rf drive frequencies, as well as scaling with pressure (10 to 70 mTorr) , rf power, and radial position. We find that the ion density increased linearly with rf power, as did the electron density, indicating the ion metastable state is formed from direct impact ionization. The ion temperature was on the order of 500 K. This is consistent with other measurements in capacitively coupled systems at 13 MHz but considerably less than values in inductively coupled systems (1000 to 9000 K). The lower ion temperature may reduce molecular decomposition. Radially resolved ion drift velocity measurements show the radial drift velocity can be lower at 60 MHZ than 13 MHz. Additional details will be discussed. This work was supported by Applied Materials and Sandia National Laboratories, a multiprogram laboratory operated by Sandia Corporation, a Lockheed Martin Company for the United States Department of Energys National Nuclear Security Administration under contract DE-AC04-94AL85000.