Scholars@Duke

Stacked Thin Film Heterostructure with Tunable Ferroelectric BSTO

Publication ,  Conference
Cai, Y; Xu, KD; Wang, Y; Spiegel, RJ; Joines, WT
Published in: 2019 Cross Strait Quad Regional Radio Science and Wireless Technology Conference Csqrwc 2019 Proceedings
July 1, 2019
Published version (DOI)

Feasibility study of low profile multilayer patch antennas using stacked BSTO-YIG thin film heterostructure has been investigated. This stacked heterostructure is comprised of an electrical-field-tunable ferroelectric BSTO with two embedded platinum electrodes, a ferromagnetic YIG thin film on a GGG substrate, and a relatively rigid Si substrate. The heterostructure dielectric parameters were analyzed. The calculated results demonstrate that a BSTO-YIG can be only tuned over a relatively narrow bandwidth.

Duke Scholars

William T. Joines
Author William T. Joines Electrical and Computer Engineering

Published In

2019 Cross Strait Quad Regional Radio Science and Wireless Technology Conference Csqrwc 2019 Proceedings

DOI

10.1109/CSQRWC.2019.8799221

Publication Date

July 1, 2019
 

Citation

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Cai, Y., Xu, K. D., Wang, Y., Spiegel, R. J., & Joines, W. T. (2019). Stacked Thin Film Heterostructure with Tunable Ferroelectric BSTO. In 2019 Cross Strait Quad Regional Radio Science and Wireless Technology Conference Csqrwc 2019 Proceedings. https://doi.org/10.1109/CSQRWC.2019.8799221
Cai, Y., K. D. Xu, Y. Wang, R. J. Spiegel, and W. T. Joines. “Stacked Thin Film Heterostructure with Tunable Ferroelectric BSTO.” In 2019 Cross Strait Quad Regional Radio Science and Wireless Technology Conference Csqrwc 2019 Proceedings, 2019. https://doi.org/10.1109/CSQRWC.2019.8799221.
Cai Y, Xu KD, Wang Y, Spiegel RJ, Joines WT. Stacked Thin Film Heterostructure with Tunable Ferroelectric BSTO. In: 2019 Cross Strait Quad Regional Radio Science and Wireless Technology Conference Csqrwc 2019 Proceedings. 2019.
Cai, Y., et al. “Stacked Thin Film Heterostructure with Tunable Ferroelectric BSTO.” 2019 Cross Strait Quad Regional Radio Science and Wireless Technology Conference Csqrwc 2019 Proceedings, 2019. Scopus, doi:10.1109/CSQRWC.2019.8799221.
Cai Y, Xu KD, Wang Y, Spiegel RJ, Joines WT. Stacked Thin Film Heterostructure with Tunable Ferroelectric BSTO. 2019 Cross Strait Quad Regional Radio Science and Wireless Technology Conference Csqrwc 2019 Proceedings. 2019.

Published In

2019 Cross Strait Quad Regional Radio Science and Wireless Technology Conference Csqrwc 2019 Proceedings

DOI

10.1109/CSQRWC.2019.8799221

Publication Date

July 1, 2019