Abstract
The permittivity, conductivity, electric polarization, and features of high-resolution X-ray diffraction scattering of a relaxor ferroelectric PbCo1/3Nb2/3O3 have been investigated in the temperature range 5–350 K. Continuous correlated temperature changes in dielectric properties and electric polarization have been revealed, which were not typical of relaxor ferroelectrics. These changes can be attributed to local polar domains, which were induced in the original crystal matrix. In such domains, the charges (valences) of Co and Nb ions were continuously changed.
Similar content being viewed by others
REFERENCES
G. A. Smolenskii, Ferroelectrics and Related Materials (Gordon and Breach, New York, 1984).
G. A. Smolenskii and I. E. Chupis, Sov. Phys. Usp. 25, 475 (1982).
V. A. Isupov, Ferroelectrics 289, 131 (2003).
R. Blinc, P. Cevc, A. Zorko, J. Holc, M. Kosec, Z. Trontelj, J. Pirnat, N. Dalal, V. Ramachandran, and J. Krzystek, J. Appl. Phys. 101, 033901 (2007).
M. Unruan, N. Vittayakorn, R. Wongmaneerung, A. Prasatkhetragarn, S. Ananta, and R. Yimnirun, Ceram. Int. 35, 169 (2009).
T. Kimura, T. Goto, H. Shintani, K. Ishizaka, and Y. Tokura, Nature (London, U.K.) 426, 55 (2004).
N. Hur, S. Park, P. A. Sharma, J. S. Ahn, S. Guba, and S.-W. Cheong, Nature (London, U.K.) 429, 392 (2004).
A. Kumar, R. S. Katiyar, C. Rinaldi, S. G. Lushnikov, and T. A. Shaplygina, Appl. Phys. Lett. 93, 232902 (2008).
W. Kleemann, V. V. Shvartsman, P. Borisov, and A. Kania, Phys. Rev. Lett. 105, 257202 (2010).
S. Chillal, M. Thede, F. J. Litterst, S. N. Gvasaliya, T. A. Shaplygina, S. G. Lushnikov, and A. Zheludev, Phys. Rev. B 87, 220403 (2013).
E. A. Popova, V. G. Zalessky, T. A. Shaplygina, S. N. Gvasaliya, S. G. Lushnikov, and S. V. Krivovichev, Ferroelectrics 412, 15 (2011).
N. A. Hill and K. M. Rabe, Phys. Rev. B 59, 8759 (1999).
S. A. Ivanov, S.-G. Eriksson, R. Tellgren, and H. Rundlof, Mater. Res. Bull. 39, 2317 (2004).
V. V. Bokov and I. E. Myl’nikova, Sov. Phys. Solid State 11, 2289 (1960).
R. A. Cowley, S. N. Gvasaliya, S. G. Lushnikov, B. Roessli, and G. M. Rotaru, Adv. Phys. 60, 229 (2011).
V. G. Zalesskii, T. A. Smirnova, and S. G. Lushnikov, Ferroelectrics 538, 153 (2019).
Yu. N. Venevtsev, E. D. Politova, and S. A. Ivanov, Ferroelectrics and Antiferroelectrics of the Barium Titanate Family (Khimiya, Moscow, 1985) [in Russian].
S. Chillia, PhD Thesis (ETH Zurich, 2013).
S. M. Feng, Y. S. Chai, J. L. Zhu, N. Manivannan, Y. S. Oh, L. J. Wang, Y. S. Yang, C. Q. Jin, and Kee Hoon Kim, New J. Phys. 12, 073006 (2010).
B. Kh. Khannanov, V. A. Sanina, E. I. Golovenchits, and M. P. Scheglov, JETP Lett. 103, 248 (2016).
A. R. Long, Adv. Phys. 31, 587 (1982).
B. Kh. Khannanov, V. A. Sanina, E. I. Golovenchits, and M. P. Scheglov, J. Magn. Magn. Mater. 421, 326 (2017).
L. P. Gor’kov, Phys. Usp. 41, 589 (1998).
M. Yu. Kagan and K. I. Kugel’, Phys. Usp. 44, 553 (2001).
V. A. Sanina, E. I. Golovenchits, V. G. Zalesskii, S. G. Lushnikov, M. P. Scheglov, S. N. Gvasaliya, A. Savvinov, R. S. Katiyar, H. Kawaji, and T. Atake, Phys. Rev. B 80, 224401 (2009).
M. D. Glinchuk, E. A. Eliseev, and A. N. Morozovska, Phys. Rev. B 78, 134107 (2008).
V. A. Sanina, B. Kh. Khannanov, E. I. Golovenchits, and M. P. Shcheglov, Phys. Solid State 60, 537 (2018).
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
This work was supported by the Russian Foundation for Basic Research (project nos. 18-32-00241, 18-502-51050).
Rights and permissions
About this article
Cite this article
Khannanov, B.K., Zalessky, V.G., Golovenchits, E.I. et al. Separation of Phases and Charge States in Relaxor Ferroelectric PbCo1/3Nb2/3O3. J. Exp. Theor. Phys. 130, 439–445 (2020). https://doi.org/10.1134/S1063776120030048
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S1063776120030048