Microwave study of ferroelectrics in waveguide

Peculiar feature of ferroelectrics is high dielectric permittivity epsiv which sometimes is accompanied by very big loss tangent tandelta. This is a reason of difficulties to obtain accurate characterization despite of variety of techniques available. This report is devoted to the selection of prope...

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Hauptverfasser:	Poplavko, Y., Molchanov, V., Pashkov, V., Prokopenko, Y., Kazmirenko, V., Yeremenko, A., Carru, J.-C., Fasquelle, D., Mascot, M.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Dielectric loss measurement Dielectric losses Dielectric materials Electromagnetic scattering Electromagnetic waveguides Ferroelectric materials Matrix converters Microwave theory and techniques Permittivity Transmission line matrix methods
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creator	Poplavko, Y. Molchanov, V. Pashkov, V. Prokopenko, Y. Kazmirenko, V. Yeremenko, A. Carru, J.-C. Fasquelle, D. Mascot, M.
description	Peculiar feature of ferroelectrics is high dielectric permittivity epsiv which sometimes is accompanied by very big loss tangent tandelta. This is a reason of difficulties to obtain accurate characterization despite of variety of techniques available. This report is devoted to the selection of proper waveguide method for specific cases of bulk or film materials investigation to obtain reliable data of their epsiv and tandelta.
doi_str_mv	10.1109/MRRS.2008.4669552
format	Conference Proceeding
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subjects	Dielectric loss measurement Dielectric losses Dielectric materials Electromagnetic scattering Electromagnetic waveguides Ferroelectric materials Matrix converters Microwave theory and techniques Permittivity Transmission line matrix methods
title	Microwave study of ferroelectrics in waveguide
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