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Lead Niobate-based Tunable Dielectrics for Smart Microwave and Millimeter-wave Systems
Electronically beam-steerable array antennas (phased arrays or smart antennas) at microwave and millimetre-wave (mm-wave) frequencies are extremely important for various wireless systems including satellite communications, terrestrial mobile communications, radars, "Internet Of Things", wireless power transmission, satellite navigations and deep-space communication. Traditionally, beam steering of antenna is achieved by moving the reflector mechanically, which is slow, bulky and not reliable. Phased arrays, which integrate antennas and phase shifter circuits, are an attractive alternative to gimbaled parabolic reflectors as they offer rapid beam steering towards the desired targets and better reliability. Phase shifters are critical components in phased arrays as the beam steering is achieved by controlling phase shifters electronically.
A promising research direction to create small, fast, reliable phase shifters with low insertion loss at high frequency is the use of tunable dielectric materials due to its potential of monolithic fabrication of array antennas and circuits. A breakthrough in such materials came recently when we demonstrated that Lead Niobate Pyrochlores PbnNb2O5+n gives the best combination of dielectric constant, tunability and low loss of any known thin film system. Translating these superior materials properties into actual device performance and high-performance electronically beam-steerable arrays antennas at microwave and mm-wave bands are the key aims of this project
Homepage: http://gtr.rcuk.ac.uk/projects?ref=EP%2FN032470%2F1
Type: Normal Research Project
Research Group: Sustainable Electronic Technologies
Themes: System design and RF, Materials & Technology, Communications
Dates: 1st October 2016 to 1st April 2020
Partners
- University of Sheffield
- University of Kent
Funding
- EPSRC
Principal Investigators
- Professor CH "Kees" De Groot
- Brian Hayden (Chemistry)
Other Investigators
- Yudong Wang
- Ioanna Bakaimi (Chemistry)
You can edit the record for this project by visiting http://secure.ecs.soton.ac.uk/db/projects/editproj.php?project=956
