Title :
Modeling and experimental studies of a transformer coupled plasma (TCPTM) source design for large area plasma processing
Author :
Singh, Vikram ; Holland, John
Author_Institution :
Lam Res. Corp., Fremont, CA, USA
fDate :
2/1/1996 12:00:00 AM
Abstract :
Extension of a planar inductively coupled source designed for 200-mm wafer processing to a large area plasma application, i.e., flat panel display manufacturing, has been studied by both computer simulation and Langmuir probe measurements. The large area source utilized multiple inductive elements operated in parallel, thereby generating a planar plasma which was uniform over a large area substrate, e.g., a 600×720 mm panel. Cold plasma simulation of this source using commercially available three-dimensional (3-D) electromagnetic software (Maxwell Eminence, Ansoft Corp.) reveals the spatial distribution of inductive RF power coupling for this source. Langmuir probe measurements of the ion current distribution for the same plasma conditions are in general agreement with the model predictions and confirm that uniform plasmas can be obtained over a large area with this source
Keywords :
Langmuir probes; flat panel displays; plasma applications; plasma diagnostics; plasma production; plasma simulation; 200 nm; Langmuir probe; computer simulation; experimental studies; flat panel display manufacturing; inductive RF power coupling; ion current distribution; large area plasma processing; modeling; multiple inductive elements; planar inductively coupled source; planar plasma; plasma simulation; three-dimensional electromagnetic software; transformer coupled plasma source design; wafer processing; Area measurement; Electromagnetic coupling; Electromagnetic measurements; Plasma applications; Plasma displays; Plasma materials processing; Plasma measurements; Plasma simulation; Plasma sources; Probes;
Journal_Title :
Plasma Science, IEEE Transactions on
