Effect of alloying BaTiO3with BiZn1/2Ti1/2O3on polarization reversal

C. M. Fancher; H. Choe; S. Gorfman; H. Simons; C. C. Chung; M. Ziolkowski; S. Prasertpalichat; D. P. Cann; J. L. Jones

doi:10.1063/5.0013410

Effect of alloying BaTiO₃with BiZn_1/2Ti_1/2O₃on polarization reversal

C. M. Fancher, H. Choe, S. Gorfman, H. Simons, C. C. Chung, M. Ziolkowski, S. Prasertpalichat, D. P. Cann, J. L. Jones

Department of Materials Science and Engineering

Tel Aviv University

Research output: Contribution to journal › Article › peer-review

Abstract

Changes in the polarization state of ferroelectric materials are mediated through the motion of planar defects such as domain walls. The interplay between the two processes that enable the inversion of the macroscopic polarization in ferroelectric materials, non-180° (domain reorientation) and 180° (domain reversal), is not well understood. In this work, time-resolved x-ray diffraction was carried out during the application of an external electric field to investigate the dynamic electric-field response mechanisms of BaTiO3 (BT) and BiZn1/2Ti1/2O3(BZT)-modified BT (0.94BT-0.06BZT). These data evidence that the incorporation of BZT into BT fundamentally alters what processes are activated to reorient the polarization by 180°. Polarization reversal in BT is achieved through direct inversion of spontaneous dipoles. However, the addition of BZT into BT promotes a two-step polarization reversal process (i.e., two consecutive non-180° reorientation events).

Original language	English
Article number	042907
Journal	Applied Physics Letters
Volume	117
Issue number	4
DOIs	https://doi.org/10.1063/5.0013410
State	Published - 27 Jul 2020

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/5.0013410

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title = "Effect of alloying BaTiO3with BiZn1/2Ti1/2O3on polarization reversal",

abstract = "Changes in the polarization state of ferroelectric materials are mediated through the motion of planar defects such as domain walls. The interplay between the two processes that enable the inversion of the macroscopic polarization in ferroelectric materials, non-180° (domain reorientation) and 180° (domain reversal), is not well understood. In this work, time-resolved x-ray diffraction was carried out during the application of an external electric field to investigate the dynamic electric-field response mechanisms of BaTiO3 (BT) and BiZn1/2Ti1/2O3(BZT)-modified BT (0.94BT-0.06BZT). These data evidence that the incorporation of BZT into BT fundamentally alters what processes are activated to reorient the polarization by 180°. Polarization reversal in BT is achieved through direct inversion of spontaneous dipoles. However, the addition of BZT into BT promotes a two-step polarization reversal process (i.e., two consecutive non-180° reorientation events).",

author = "Fancher, \{C. M.\} and H. Choe and S. Gorfman and H. Simons and Chung, \{C. C.\} and M. Ziolkowski and S. Prasertpalichat and Cann, \{D. P.\} and Jones, \{J. L.\}",

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doi = "10.1063/5.0013410",

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T1 - Effect of alloying BaTiO3with BiZn1/2Ti1/2O3on polarization reversal

AU - Fancher, C. M.

AU - Choe, H.

AU - Gorfman, S.

AU - Simons, H.

AU - Chung, C. C.

AU - Ziolkowski, M.

AU - Prasertpalichat, S.

AU - Cann, D. P.

AU - Jones, J. L.

PY - 2020/7/27

Y1 - 2020/7/27

N2 - Changes in the polarization state of ferroelectric materials are mediated through the motion of planar defects such as domain walls. The interplay between the two processes that enable the inversion of the macroscopic polarization in ferroelectric materials, non-180° (domain reorientation) and 180° (domain reversal), is not well understood. In this work, time-resolved x-ray diffraction was carried out during the application of an external electric field to investigate the dynamic electric-field response mechanisms of BaTiO3 (BT) and BiZn1/2Ti1/2O3(BZT)-modified BT (0.94BT-0.06BZT). These data evidence that the incorporation of BZT into BT fundamentally alters what processes are activated to reorient the polarization by 180°. Polarization reversal in BT is achieved through direct inversion of spontaneous dipoles. However, the addition of BZT into BT promotes a two-step polarization reversal process (i.e., two consecutive non-180° reorientation events).

AB - Changes in the polarization state of ferroelectric materials are mediated through the motion of planar defects such as domain walls. The interplay between the two processes that enable the inversion of the macroscopic polarization in ferroelectric materials, non-180° (domain reorientation) and 180° (domain reversal), is not well understood. In this work, time-resolved x-ray diffraction was carried out during the application of an external electric field to investigate the dynamic electric-field response mechanisms of BaTiO3 (BT) and BiZn1/2Ti1/2O3(BZT)-modified BT (0.94BT-0.06BZT). These data evidence that the incorporation of BZT into BT fundamentally alters what processes are activated to reorient the polarization by 180°. Polarization reversal in BT is achieved through direct inversion of spontaneous dipoles. However, the addition of BZT into BT promotes a two-step polarization reversal process (i.e., two consecutive non-180° reorientation events).

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JF - Applied Physics Letters

IS - 4

M1 - 042907

ER -

Effect of alloying BaTiO₃with BiZn_1/2Ti_1/2O₃on polarization reversal

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