A direct method for lateral patterning of silicon on insulator (SOI) films
with sub-mum resolution is presented. This method is based on rapid thermal
oxidation induced by a focused laser beam. By focusing the cw light of an
argon ion laser at a wavelength of 458 nm (514 nm) we achieve a diffraction
limited laser spot of 315 nm (350 nm). The laser spot is scanned over the
surface of a 15-100 nm thick silicon film in ambient air. Above a critical
laser power rapid local oxidation of the entire silicon him at the exposed
sample spot is observed. Below this threshold power even within longer time
scales no changes of the sample surface are detected. AFM measurements of
laser written oxide lines show line widths down to 200 nm. Both this high s
patial resolution and the dynamics of the oxidation process near the thresh
old power are attributed to nonlinear effects of the absorption and heat co
nduction in the sample. Model calculations show that the temperature profil
e can be even narrower than the laser spot diameter The oxidation is relate
d to an unstable temperature distribution in the exposed sample, caused by
a self amplifying heating. (C) 2000 Elsevier Science B.V. All rights reserv
ed.