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Ferroelectrics Volume 380, 2009 - Issue 1
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Original Articles

Monte Carlo Simulations of Relaxor Ferroelectric Dielectric Permittivity in Films Structure

Yongyut Laosiritaworn Department of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai, 50200, Thailand; ThEP Center, CHE, 328 Si Ayutthaya Road, Bangkok, 10400, Thailand
,
Kanokwan Kanchiang Department of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai, 50200, Thailand; ThEP Center, CHE, 328 Si Ayutthaya Road, Bangkok, 10400, Thailand
,
Rattikorn Yimnirun School of Physics, Institute of Science, Suranaree University of Technology, Nakhon Ratchasima, 30000, Thailand
,
Ruyan Guo Department of Electrical and Computer Engineering, University of Texas at San Antonio, One UTSA Circle, San Antonio, TX, 78249-1644, USA
&
Amar S. Bhalla Department of Electrical and Computer Engineering, University of Texas at San Antonio, One UTSA Circle, San Antonio, TX, 78249-1644, USA
Pages 169-176 | Received 03 Aug 2008, Accepted 31 Dec 2008, Published online: 20 Sep 2010
 
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Abstract

In this study, the Monte Carlo simulation was used to investigate relaxor films using the spin-glass Hamiltonian with the surface effect. The single polarization flip algorithm was used to update the local polarizations where the relaxation time was measured to calculate the dielectric permittivity and loss as varying temperature, field frequency and films thickness. From the results, in the vicinity of the electrodes on the topmost and bottommost layers, the relaxor films exhibit thickness-dependent dielectric properties in qualitatively good agreement with experiments. The maximum dielectric permittivity enhances in the films with increasing the films thickness as expected. The relations of how maximum dielectric permittivity and its corresponding temperatures vary with thickness are also explained.

Acknowledgments

This work is supported by the Commission on Higher Education (Thailand) and the Thailand Research Fund (TRF) and partially supported by NSF and ONR funded programs.

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