RT Journal Article
ID 321ef6193753ad46
A1 Mataras, Dimitris
A1 Rapakoulias, Dimitrious E.
T1 IMPROVEMENTS IN CONTROL AND UNDERSTANDING OF RADIO FREQUENCY SILANE DISCHARGES
JF High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes
JO HTM
YR 1997
FD 1997-09-30
VO 1
IS 3
SP 383
OP 391
AB Experimental data concerning power and feed gas consumption in rf silane discharges, based on simultaneous voltage and current measurements with mass spectrometry are reported. These measurements are used for the calculation of the power needed for a given silane conversion and for the determination of the electron impact dissociation rate constant, for two different gas pressures. Moreover, the data obtained, along with radical generation profiles, deduced from spatially resolved laser induced fluorescence measurements, are applied in a mathematical model used to predict the precursor concentration profiles in space and the deposition rate due to each of the radicals. The results show that SiH3 is the most abundant radical, although SiH2 is the major dissociation product, due to the different gas-phase reactivity of these two species. However, due to the different film growth mechanism for each precursor, SiH2, as well as SiH and Si seem to have an almost equally important contribution with SiH3.
PB Begell House
LK https://www.dl.begellhouse.com/journals/57d172397126f956,0ea4d29726956133,321ef6193753ad46.html