Overview
- Authors:
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Spartak Gevorgian
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Department of Microtechnology and Nanoscience, Chalmers University of Technology, Gothenburg, Sweden
Ericsson AB, Moelndal, Sweden
- Provides a practical introduction into the physics, design, modelling, fabrication and measurement methods for ferroelectric components and devices
- Includes supplementary material: sn.pub/extras
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Other ways to access
Table of contents (10 chapters)
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- Andrei Vorobiev, Spartak Gevorgian
Pages 61-113
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- Spartak Gevorgian, Andrei Vorobiev
Pages 115-173
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- Spartak Gevorgian, Anatoli Deleniv
Pages 175-223
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- Anatoli Deleniv, Spartak Gevorgian
Pages 287-349
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Back Matter
Pages 391-394
About this book
Today’s wireless communications and information systems are heavily based on microwave technology. Current trends indicate that in the future along with - crowaves, the millimeter wave and Terahertz technologies will be used to meet the growing bandwidth and overall performance requirements. Moreover, motivated by the needs of the society, new industry sectors are gaining ground; such as wi- less sensor networks, safety and security systems, automotive, medical, envir- mental/food monitoring, radio tags etc. Furthermore, the progress and the pr- lems in the modern society indicate that in the future these systems have to be more user/consumer friendly, i. e. adaptable, reconfigurable and cost effective. The mobile phone is a typical example which today is much more than just a phone; it includes a range of new functionalities such as Internet, GPS, TV, etc. To handle, in a cost effective way, all available and new future standards, the growing n- ber of the channels and bandwidth both the mobile handsets and the associated systems have to be agile (adaptable/reconfigurable). The complex societal needs have initiated considerable activities in the field of cognitive and software defined radios and triggered extensive research in adequate components and technology platforms. To meet the stringent requirements of these systems, especially in ag- ity and cost, new components with enhanced performances and new functionalities are needed. In this sense the components based on ferroelectrics have greater - tential and already are gaining ground.
Authors and Affiliations
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Department of Microtechnology and Nanoscience, Chalmers University of Technology, Gothenburg, Sweden
Spartak Gevorgian
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Ericsson AB, Moelndal, Sweden
Spartak Gevorgian
About the author
Spartak Gevorgian obtained his DrSci in Electrical and Electronics Engineering from the Electrotechnical University, St. Petersburg, Russia. He works as a profesor for the Chalmers University of Technology and also part-time for Ericsson AB, Mölndal, Sweden. As well as having been a professor for his former university in St. Petersburg, Spartak Gevorgian has also worked at the Polytechnic Institute, Yerevan, Armenia. He has been the co-ordinator of several EU projects, including NANOSTAR and MELODY.