外场方向对反铁电方酸H2C4O4极化旋转的影响

IF 0.9 4区物理与天体物理 Q4 PHYSICS, CONDENSED MATTER

Condensed Matter Physics Pub Date : 2021-12-18 DOI:10.5488/CMP.24.43703

A. Moina

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引用次数: 0

摘要

利用先前建立的模型，我们探索了方酸反铁电晶体在交流平面内任意方向的电场作用下的极化旋转过程。除了某些特定的场方向外，预测了低温下的两步极化重定向:首先到具有垂直亚晶格极化的非共线相，然后到共线铁电相。然而，当场沿自发亚晶格极化轴方向时，中间的非共线相位不存在;当电场与该轴呈45°时，向铁电相转变的电场趋于无穷大。确定了所有场取向的基态质子构型和亚晶格偏振矢量方向。T-E相图是为沿交流平面对角线方向的场和上述讨论的场的特定方向构造的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Influence of external field direction on polarization rotation in antiferroelectric squaric acid H2C4O4

Using the previously developed model we explore the processes of polarization rotation in antiferroelectric crystals of squaric acid by the electric fields directed arbitrarily within the ac plane. Except for some particular directions of the field, the two-step polarization reorientation at low temperatures is predicted: first, to the noncollinear phase with perpendicular sublattice polarizations and then to the collinear ferroelectric phase. However, when the field is directed along the axis of spontaneous sublattice polarizations, the intermediate noncollinear phase is absent; when the field is at 45° to this axis, the field for transition to the ferroelectric phase tends to infinity. The ground state proton configurations and the directions of the sublattice polarization vectors are determined for all field orientations. The T-E phase diagrams are constructed for the fields directed along the diagonals of the ac plane and for the above discussed particular directions of the field.

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来源期刊

Condensed Matter Physics 物理-物理：凝聚态物理

CiteScore

1.10

自引率

16.70%

发文量

审稿时长

1 months

期刊介绍： Condensed Matter Physics contains original and review articles in the field of statistical mechanics and thermodynamics of equilibrium and nonequilibrium processes, relativistic mechanics of interacting particle systems.The main attention is paid to physics of solid, liquid and amorphous systems, phase equilibria and phase transitions, thermal, structural, electric, magnetic and optical properties of condensed matter. Condensed Matter Physics is published quarterly.