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Numerical Analysis of Transient Capacitance Data Obtained from Titanium Induced Levels in Silicon

Published online by Cambridge University Press:  25 February 2011

E. Courcelle
Affiliation:
CRN, Laboratoire PHASE, B.P. 20, F-67037 Strasbourg Cedex (France).
A. Mesli
Affiliation:
CRN, Laboratoire PHASE, B.P. 20, F-67037 Strasbourg Cedex (France).
P. Siffert
Affiliation:
CRN, Laboratoire PHASE, B.P. 20, F-67037 Strasbourg Cedex (France).
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Abstract

Using electrical and optical DLTS analysis based on the capacitance transient measurements and taking into account the spatially dependent capture and the competition between emission and capture, parameters of Titanium levels in silicon are derived. By curve fitting the calculation to trap-filling data, the electron capture cross section of the first donor level (Ec - .284 eV) is found to be 5.8 10-15 exp (.013/kT)cm2 at ξ= 5 104 V/cm. The hole trap capture cross section of the second donor level (Ev + .260 eV) is found to be 1.97 10-17exp (-.017/kT)cm2 at zero electric field.

Type
Articles
Copyright
Copyright © Materials Research Society 1986

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References

/1/ Shockley, W. and Read, W.T. Jr ; Phys. Rev. 87 835 (1952).CrossRefGoogle Scholar
/2/ Hall, R.N. ; Phys. Rev. 87 387 (1952).CrossRefGoogle Scholar
/3/ Sah, C.T. and Shockley, W.; Phys. Rev. 109 1103 (1958).CrossRefGoogle Scholar
/4/ Brunwin, R., Hamilton, B., Jordan, P., A.RT-Peaker ; Elect. Lett. 15 348 (1979).Google Scholar
/5/ Hamilton, B., Peaker, A.R., Wight, D.R. ; J. Appl. Phys. 50 6373 (1979).CrossRefGoogle Scholar
/6/ Sah, C.T., Forbes, L., Rosier, L.L., Tasch, A.F. Jr ; Soli-dState Elect. 13 759 (1970).CrossRefGoogle Scholar
/7/ .Miller, G.L., Lang, D.V. and Kimerling, L.C. in Annual Reviews of Material Science 1977 (Annual Reviews, Palo Alto, Calif., 1977).Google Scholar
/8/ Lang, D.V. in Thermally stimulated Relaxation in Solids, edited by Braeunlich, P. (Springer, Berlin 1979) pp. 93133.CrossRefGoogle Scholar
/9/ Grimmeis, H.G. in Annual Reviews of Material Science 1977 (Annual Reviews, Palo Alto, Calif., 1977).Google Scholar
/10/ Sah, C.T. ; Solid State Elect. 19 975 (1976).CrossRefGoogle Scholar
/11/ Meijer, E., Ledebo, L.A., Wang, Z.G. ; Solid State Comm. 46 255 (1983).CrossRefGoogle Scholar
/12/ Wang, A.C. and Sah, C.T. ; J. Appl. Phys. 56 1021 (1984).CrossRefGoogle Scholar
/13/ Mesli, A., Courcelle, E., Siffert, P. ; to be-published in J. Appl. Phys.Google Scholar
/14/ Borsuck, Judith A. and Swanson, R.H. ; J. Appl. Phys. 52 6704 (1981).CrossRefGoogle Scholar
/15/ Chen, J.W., Milnes, A.G., Rohatgi, A. ; Solid State Elect. 22 801 (1979).CrossRefGoogle Scholar
/16/ Rohatgi, A., Davis, J.R., Hopkins, R.H., Rai-Choudhury, P., Mullin, P.G. Mc Solid State Elect. 23 415 (1980).CrossRefGoogle Scholar