The undercut process of the micromachined structures on a (1 1 1) oriented
silicon wafer is studied in this paper, As observed in the experiment, the
undercut of a cantilever on (1 1 1) wafer is along the width of the beam. A
ccording to the undercut mechanism, the advantages of fabricating a cantile
ver on (1 1 1) wafer are three-fold: (1) significantly reduce the etching t
ime and obtain an ideal clamped boundary in the mean time; (2) the thicknes
s as well as the moment of inertia of the cantilever is closer to the ideal
case; (3) the flexural rigidity of the cantilever is constant along the be
am axis. Consequently, the micromachined cantilever on a (1 1 1) wafer is m
ore appropriate in various applications. For instance, it is more appropria
te to fabricate the diagnostic microstructures on the (1 1 1) wafer than on
the (1 0 0) wafer in determining the thin film residual stress. (C) 2001 E
lsevier Science B.V. All rights reserved.