Ferroelectric phase transition and crystal asymmetry monitoring of SrTiO3 using quasi TE m ,1,1 and quasi TM m ,1,1 modes

Dielectric spectroscopy of a SrTiO3 single crystal over a broad range of microwave frequency using quasi TEm,1,1 and quasi TMm,1,1 modes reveals crystal asymmetry from typical measurement of Q-factor, transmission, or frequency characteristics in continuous cooling down to a few Kelvin. The properti...

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Bibliographic Details
Published in:Journal of applied physics 2019-09, Vol.126 (10)
Main Authors: Hosain, M. A., Le Floch, J.-M., Bourhill, J. F., Krupka, J., Tobar, M. E.
Format: Article
Language:English
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Summary:Dielectric spectroscopy of a SrTiO3 single crystal over a broad range of microwave frequency using quasi TEm,1,1 and quasi TMm,1,1 modes reveals crystal asymmetry from typical measurement of Q-factor, transmission, or frequency characteristics in continuous cooling down to a few Kelvin. The properties of the modes due to the crystal asymmetry are validated by implementing a quasiharmonic phonon approximation. The observed ferroelectric phase transition temperature is around 51 K, and quantum-mechanical stabilization of the paraelectric phase arises below 5 K with very high permittivity. Also, an antiferrodistortive transition was indicated at 105 K. Landau’s theory of correlation length supports the observation of an extra-loss term so the transition may be identified near the Q-factor maxima or transmission maxima depending on the other loss terms present in the cavity. Thus, the ferroelectric phase transition with respect to temperature is identified when its extra-loss term causes a discontinuity or deviation in the derivative of the temperature characteristic near the minimum of total cavity loss (maximum Q-factor or maximum transmission temperature characteristic). This temperature is confirmed by transmission amplitude variation of quasi TE2,1,1 under 200 V dc electric field showing the existence of the soft-mode. These measurements support a typical polarization model and explicit temperature dependency of the soft-mode incorporating an imaginary frequency.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.5092520