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A New Structure for a Superconducting Field Effect Transistor

Published online by Cambridge University Press:  15 February 2011

Stéphane Tyč  and
Alain Schuhl
Stéphane Tyč
Affiliation:
Laboratoire Central de Recherches, Thomson-CSF, 91404 Orsay Cedex, France
Alain Schuhl
Affiliation:
Laboratoire Central de Recherches, Thomson-CSF, 91404 Orsay Cedex, France
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Abstract

A new structure is proposed and described which can solve the most severe drawbacks of current architectures for Josephson FETs. Its advantages are discussed, and several realizations are suggested.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 241 , 1991 , 251
Copyright
Copyright © Materials Research Society 1992

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References

REFERENCES

[1]Klapwick, T.M., Heslinga, D.R., and van Huffelen, W.M., in Superconducting Electronics, edited by Weinstock, H. and Nisenoff, M., Nato ASI series, Vol F59, Springer Verlag.Google Scholar
[2]Kleinsasser, A.W. and Galagher, W.J., in Superconducting Devices, edited by Ruggiero, S.T. and Rudman, D.A., Academic Press (1990).Google Scholar
[3]Likharev, K.K., Semenov, V.K., and Zorin, A.B., in Superconducting Devices, edited by Ruggiero, S.T. and Rudman, D.A., Academic Press (1990), and references therein.Google Scholar
[4]Silver, A.H., Chase, A.B., McColl, M., and Millea, M.F., in Future Trends in Superconductive Electronics, edited by Deaver, B.S., Falco, C.M., Harris, J.H., and Wolf, S.A., AIP, New York 1978; T.D. Clark, R.J. Prance, and A.D.C. Grassie, J. Appl. Phys. 51, 2736 (1980).Google Scholar
[5] See e.g. Kleinsasser, A.W., and Jackson, T.N., IEEE Trans. Mag. 25, 1274 (1989).Google Scholar
[6]Gennes, P.C. de, Superconductivity of Metals and Alloys, Benjamin, New York (1966).Google Scholar
[7] For a discussion of the current lack of understanding of this dependence, refer to Kleinsasser, A.W., J. Appl. Phys. 69, 4146 (1991).Google Scholar
[8]Mota, A.C., Visani, P., and Pollini, A., Proc. 18th Intl. Conf. on Low Temp. Phys., Jap. J. Appl. Phys. 26, 1693 (1987).Google Scholar
[9]Seto, J., and Van Duzer, T., Proc. 13th Intl. Conf. on Low Temp. Phys., 3, 328, Plenum, New York 1972.Google Scholar
[10]Anderson, P.W., J. Phys. Chem. Solids 11, 26 (1959).Google Scholar
[11]Strongin, M., Thompson, R.S., Kammerer, O.F. and Crow, J.E., Phys. Rev. B 1, 1978 (1970).Google Scholar
[12]Dunaev, C.R.Ac. Sc. URSS, 55, 21 (1947).Google Scholar
[13]Koshindo, T., Takaoka, S., and Murase, K., Sol. St. Comm. 76, 31 (1990), and ref. therein.Google Scholar
[14]Nguyen-Van-Dau, F., Crété, D.G., and Mathet, V., presented at the Freiburg IV–VI Colloquium, October 16th 1991, unpublished.Google Scholar
[15]Tyč, S., Weil, D., Gilet, P., Nguyen-Van-Dau, F., Galtier, P., and Barbu, A., presented at the 1991 MRS fall meeting, Boston, MA (unpublished).Google Scholar
[16]Tyč, S. et al., in preparation.Google Scholar
[17]Baranowski, J.M., Liliental-Weber, Z., Yau, W.-F., and Weber, E.R., Phys. Rev. Lett. 66, 3079 (1991).Google Scholar