Author
Listed:
- Che-Hui Lee
(Cornell University
Pennsylvania State University, University Park)
- Nathan D. Orloff
(National Institute of Standards and Technology
University of Maryland, College Park)
- Turan Birol
(School of Applied and Engineering Physics, Cornell University)
- Ye Zhu
(School of Applied and Engineering Physics, Cornell University)
- Veronica Goian
(Institute of Physics ASCR, Na Slovance 2, 182 21 Prague 8, Czech Republic)
- Eduard Rocas
(Universitat Politècnica de Catalunya, 08034 Barcelona, Spain)
- Ryan Haislmaier
(Pennsylvania State University, University Park)
- Eftihia Vlahos
(Pennsylvania State University, University Park)
- Julia A. Mundy
(School of Applied and Engineering Physics, Cornell University)
- Lena F. Kourkoutis
(School of Applied and Engineering Physics, Cornell University
Kavli Institute at Cornell for Nanoscale Science)
- Yuefeng Nie
(Cornell University)
- Michael D. Biegalski
(Center for Nanophase Materials Sciences, Oak Ridge National Laboratory)
- Jingshu Zhang
(Cornell University)
- Margitta Bernhagen
(Leibniz Institute for Crystal Growth, Max-Born-Strasse 2, D-12489 Berlin, Germany)
- Nicole A. Benedek
(Materials Science and Engineering Program, The University of Texas at Austin)
- Yongsam Kim
(School of Applied and Engineering Physics, Cornell University)
- Joel D. Brock
(School of Applied and Engineering Physics, Cornell University)
- Reinhard Uecker
(Leibniz Institute for Crystal Growth, Max-Born-Strasse 2, D-12489 Berlin, Germany)
- X. X. Xi
(Temple University)
- Venkatraman Gopalan
(Pennsylvania State University, University Park)
- Dmitry Nuzhnyy
(Institute of Physics ASCR, Na Slovance 2, 182 21 Prague 8, Czech Republic)
- Stanislav Kamba
(Institute of Physics ASCR, Na Slovance 2, 182 21 Prague 8, Czech Republic)
- David A. Muller
(School of Applied and Engineering Physics, Cornell University
Kavli Institute at Cornell for Nanoscale Science)
- Ichiro Takeuchi
(University of Maryland, College Park)
- James C. Booth
(National Institute of Standards and Technology)
- Craig J. Fennie
(School of Applied and Engineering Physics, Cornell University)
- Darrell G. Schlom
(Cornell University
Kavli Institute at Cornell for Nanoscale Science)
Abstract
A new family of tunable microwave dielectrics with unparalleled performance at frequencies up to 125 GHz at room temperature has been created, using dimensionality to add and control a local ferroelectric instability in a system with exceptionally low dielectric loss.
Suggested Citation
Che-Hui Lee & Nathan D. Orloff & Turan Birol & Ye Zhu & Veronica Goian & Eduard Rocas & Ryan Haislmaier & Eftihia Vlahos & Julia A. Mundy & Lena F. Kourkoutis & Yuefeng Nie & Michael D. Biegalski & Ji, 2013.
"Exploiting dimensionality and defect mitigation to create tunable microwave dielectrics,"
Nature, Nature, vol. 502(7472), pages 532-536, October.
Handle:
RePEc:nat:nature:v:502:y:2013:i:7472:d:10.1038_nature12582
DOI: 10.1038/nature12582
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Citations
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Cited by:
- Ruitao Li & Diming Xu & Chao Du & Qianqian Ma & Feng Zhang & Xu Liang & Dawei Wang & Zhongqi Shi & Wenfeng Liu & Di Zhou, 2024.
"Giant dielectric tunability in ferroelectric ceramics with ultralow loss by ion substitution design,"
Nature Communications, Nature, vol. 15(1), pages 1-8, December.
- Seongjoo Jung & Cristina Pizzolitto & Pierdomenico Biasi & Paul J. Dauenhauer & Turan Birol, 2023.
"Programmable catalysis by support polarization: elucidating and breaking scaling relations,"
Nature Communications, Nature, vol. 14(1), pages 1-10, December.
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