B. Gautier et al., SIMS DEPTH PROFILE CORRECTION FOR THE STUDY OF THE FIRST STEP OF THE DIFFUSION OF BORON IN SILICON, Nuclear instruments & methods in physics research. Section B, Beam interactions with materials and atoms, 142(3), 1998, pp. 361-376
The analysis by secondary ions mass spectrometry (SIMS) is a powerful
tool for the study of the diffusion of boron in silicon. It has been e
xtensively used in order to determine diffusion coefficients. Most of
the time, the SIMS profiles used to calculate the diffusion coefficien
ts are sufficiently large so that the SIMS analysis do not modify the
real concentration distribution in a significant manner. But more and
more, the first steps of the diffusion are to be considered in order t
o obtain very thin diffused structures. In that case, where very thin
layers are analyzed by SIMS, it is no more possible to measure directl
y the real concentration distribution because the SIMS analysis modify
it rather significantly. When the real width or the real shape of the
analyzed layers is needed, the measured profile has to be corrected i
n some way. We show that in the case of Gaussian original profiles, th
e SIMS profiles can be efficiently corrected, and the exact second ord
er moment of the profile determined from the measured profile until th
e original second order moment is as low as 20 Angstrom. This can be d
one by the study of the properties of the convolution of the profiles
by the SIMS analysis response function. In the case of non-Gaussian pr
ofiles, the real shape and width of the profiles can be determined by
a deconvolution procedure that we have previously described. (B. Gauti
er, J.C. Dupuy, G. Frudon, J.P. Vallard, C. Dubois, Proceedings of SIM
S X, The International Conference on Secondary Ion Mass Spectroscopy a
nd Related Techniques, Wiley, Chichester, 1996, pp. 443; B. Gautier, R
. Frost, J.C. Dupuy, G. Prudon, Surface and Interface Analysis 24 (11)
(1996) 733). This procedure is applied to the case of the SIMS measur
ement of delta-doped layers of boron in silicon before and after rapid
thermal annealing (RTA). (C) 1998 Elsevier Science B.V. All rights re
served.