A new approach to dose modification proximity effect correction (PEG)
has been proposed that accounts for both short range and long range sc
atter in advanced direct-write electron beam lithography systems. This
scheme can be applied to device writing and to optical mask making wh
ere critical dimension (CD) control is of increasing importance. This
technique is unique because detailed knowledge of the short range scat
ter dose distribution is unnecessary; by correcting only for long rang
e scatter, both short and long range compensation is obtained. The new
approach is based on the fact that if the characteristic distance of
short range scatter is about one third or less of the smallest feature
, and if each feature is at least five addressable pixels in the beam
writer, then the feature can be printed at its coded dimension if the
resist clearing or threshold dose is at the midpoint of the dose profi
le. Si wafers coated with a positive tone e-beam resist were exposed t
o a test pattern using no PEG, conventional dose modification PEC and
the new scheme. Results show that CD control is maintained over a larg
er pattern density variation and over a larger exposure dose range by
the new technique when compared to the older method and to the uncorre
cted patterns. (C) 1997 American Vaccum Society.