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Incoherent Light Annealing of Selectively Implanted GaAs for Mesfet Applications

Published online by Cambridge University Press:  25 February 2011

S.A. Kitching ,
M.H. Badawi ,
S.W. Bland  and
J. Mun
S.A. Kitching
Affiliation:
Standard Telecommunication Laboratories Limited, London Road, Harlow, Essex, England
M.H. Badawi
Affiliation:
Standard Telecommunication Laboratories Limited, London Road, Harlow, Essex, England
S.W. Bland
Affiliation:
Standard Telecommunication Laboratories Limited, London Road, Harlow, Essex, England
J. Mun
Affiliation:
Standard Telecommunication Laboratories Limited, London Road, Harlow, Essex, England
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Abstract

Capped and capless incoherent light annealing of high and low dose silicon implants into GaAs have been compared with conventional capless furnace annealing of the same implants. The yield and uniformity of DC characteristics of selectively implanted depletion mode MESFET's fabricated on 2-inch wafers annealed by the above three methods have also been compared. Capped incoherent light annealing was found to give results comparable to and in some cases better than conventional furnace annealing both in terms of activation of the implants and also device performance.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 35: Symposium A – Energy Beam-Solid Interactions and Transient Thermal Processing/1984 , 1984 , 503
Copyright
Copyright © Materials Research Society 1985

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References

REFERENCES

[1] Arai, M., Nishiyama, K. and Watanabe, N. 'Radiation annealing of GaAs implanted with Si, Jpn. J. Appl. hys., 1981, 20, pp L124L126 Google Scholar
[2] Davies, D.E., McNally, P.J., Lorenzo, J.P. and Julian, M. 'Incoherent light annealing of implanted layers in GaAs', IEEE Electron Device Lett., 1982, EDL–3, pp 102103 Google Scholar
[3] Ito, K., Yoshida, M., Otsubo, M. and Murotani, T. 'Radiation annealing of Si and S-implanted GaAs', Jpn. J. Appl. Phys., 1983, 22, pp L299L300 Google Scholar
[4] Kohzu, H., Kuzuhara, M. and Takayama, Y. 'Infrared rapid thermal annealing for GaAs device fabrication', J. Appl. Phys., 1983, 54, pp 49985003 Google Scholar
[5] Kuzuhara, M., Kohzu, H., Takayama, Y. 'Electrical properties of S implants in GaAs activated by infrared rapid thermal annealing', J. Appl. Phys., 1983, 54, pp 31213124 Google Scholar
[6] Tabatabaie-Alavi, K., Masum Choudhury, A.N.M., Fonstad, C.G. and Gelpey, J.C. 'Rapid thermal annealing of Be, Si and Zn implanted GaAs using an ultrahigh power argon arc lamp’, Appl. Phys. Lett., 1983, 43, pp 505507 Google Scholar
[7] Rosenblatt, D.H., Hitchens, W.R., Shatas, S., Gat, A., Betts, D.A. 'Rapid thermal annealing of Si-implanted GaAs', Mat. Res. Soc. Symp., 1983, Boston, USA Google Scholar
[8] Badawi, M.H., Mun, J. 'Halogen lamp annealing of GaAs for MESFET fabrication', Electronics Letters, 1984, 20, pp 125126 Google Scholar
[9] Badawi, M.H., Dunbobbin, D.R., Mun, J. 'Selective implantation of GaAs for MESFET applications', Electronic Letters, 1983, 19, pp 598600 Google Scholar