Intrinsic limits on the Q and intermodulation of low power high temperature superconducting microstrip resonators

Hammond RB, Soares ER, Willemsen BA, Dahm T, Scalapino DJ, Schrieffer JR (1998)
Journal of Applied Physics 84(10): 5662-5667.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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DOI
Autor*in
Hammond, RB; Soares, ER; Willemsen, BA; Dahm, ThomasUniBi; Scalapino, DJ; Schrieffer, JR
Einrichtung
Fakultät für Physik > AG Theorie der Kondensierten Materie
Abstract / Bemerkung
Cuprate superconducting thin films are being used to make compact low power microwave devices. In recent years, with improved materials and designs, there has been a steady improvement in device performance, notably an increase in resonator Q and a decrease in the nonlinear intermodulation. It is important to understand how much improvement can be expected. Here we discuss the intrinsic limiting behavior that one might achieve with a perfect film, review the present status, and discuss what the limiting behavior implies for high temperature superconducting filters. Our analysis indicates that increases in unloaded Q to similar to 10(6) and decreases in intermodulation by a factor of similar to 10(4), compared with today's values, might be achieved. (C) 1998 American Institute of Physics. [S0021-8979(98)06322-1].
Erscheinungsjahr
1998
Zeitschriftentitel
Journal of Applied Physics
Band
84
Ausgabe
10
Seite(n)
5662-5667
ISSN
0021-8979
Page URI
https://pub.uni-bielefeld.de/record/2330306

Zitieren

Hammond RB, Soares ER, Willemsen BA, Dahm T, Scalapino DJ, Schrieffer JR. Intrinsic limits on the Q and intermodulation of low power high temperature superconducting microstrip resonators. Journal of Applied Physics. 1998;84(10):5662-5667.
Hammond, R. B., Soares, E. R., Willemsen, B. A., Dahm, T., Scalapino, D. J., & Schrieffer, J. R. (1998). Intrinsic limits on the Q and intermodulation of low power high temperature superconducting microstrip resonators. Journal of Applied Physics, 84(10), 5662-5667. https://doi.org/10.1063/1.368827
Hammond, RB, Soares, ER, Willemsen, BA, Dahm, Thomas, Scalapino, DJ, and Schrieffer, JR. 1998. “Intrinsic limits on the Q and intermodulation of low power high temperature superconducting microstrip resonators”. Journal of Applied Physics 84 (10): 5662-5667.
Hammond, R. B., Soares, E. R., Willemsen, B. A., Dahm, T., Scalapino, D. J., and Schrieffer, J. R. (1998). Intrinsic limits on the Q and intermodulation of low power high temperature superconducting microstrip resonators. Journal of Applied Physics 84, 5662-5667.
Hammond, R.B., et al., 1998. Intrinsic limits on the Q and intermodulation of low power high temperature superconducting microstrip resonators. Journal of Applied Physics, 84(10), p 5662-5667.
R.B. Hammond, et al., “Intrinsic limits on the Q and intermodulation of low power high temperature superconducting microstrip resonators”, Journal of Applied Physics, vol. 84, 1998, pp. 5662-5667.
Hammond, R.B., Soares, E.R., Willemsen, B.A., Dahm, T., Scalapino, D.J., Schrieffer, J.R.: Intrinsic limits on the Q and intermodulation of low power high temperature superconducting microstrip resonators. Journal of Applied Physics. 84, 5662-5667 (1998).
Hammond, RB, Soares, ER, Willemsen, BA, Dahm, Thomas, Scalapino, DJ, and Schrieffer, JR. “Intrinsic limits on the Q and intermodulation of low power high temperature superconducting microstrip resonators”. Journal of Applied Physics 84.10 (1998): 5662-5667.
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