Thin films of high transition temperature superconducting YBa2Cu3O7−δ (YBCO) have been deposited onto YZ‐cut LiNbO3 and photolithographically patterned into surface acoustic wave (SAW) devices operating at 50 and 100 MHz center frequencies. Both devices show sharp improvement in SAW transduction efficiency as temperatures are lowered to the superconducting transition temperature of the YBCO electrodes. The magnitude of the improvement is directly dependent on the normal state resistance of the YBCO, and in one case was as high as 12 dB. In both cases, the amplitude change over the entire temperature range is matched nearly exactly by the derived ideal electrode behavior predicted from the aperture width, substrate radiation resistance, and YBCO electrode sheet resistance.

Topics
High temperature superconductors, Superconductivity, Surface acoustic wave device, Electric measurements, Microfabrication, Thin films, Oxides
1.
R. M.
White
,
Proc. IEEE
58
,
1238
(
1970
).
Google Scholar
Crossref
Search ADS
 
2.
W. R.
Smith
,
H. M.
Gerard
,
J. H.
Collins
, and
H. J.
Shaw
,
IEEE Trans. Mic. Theory Technol.
MTT-17
,
856
(
1969
).
Google Scholar
 
3.
Supriyo Datta, Surface Acoustic Wave Devices (Prentice-Hall, Englewood Cliffs, NJ, 1986).
4.
H. P. Fredricksen, Dissertation, University of Wisconsin-Milwaukee, Milwaukee, WI, 1981.
5.
N. J. Wu et al., presented at the Materials Research Society Spring Symposium, 1994.
6.
J. Wosik et al., in Science and Technology of Laser Ablated Thin Film Superconductors 2, edited by R. D. McConnell and R. Noufi (Plenum, New York, 1990).
7.
K.
Lakin
,
IEEE Trans. Mic. Theory Technol.
MTT-22
,
418
(April
1974
).
Google Scholar
 
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© 1994 American Institute of Physics.
1994
American Institute of Physics
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