Hlinka J, Privratska J, Ondrejkovic P, Janovec V
Institute of Physics, The Czech Academy of Sciences, Na Slovance 2, 182 21 Prague 8, Czech Republic.
Phys Rev Lett. 2016 Apr 29;116(17):177602. doi: 10.1103/PhysRevLett.116.177602. Epub 2016 Apr 28.
The 212 species of the structural phase transitions with a macroscopic symmetry breaking are inspected with respect to the occurrence of the ferroaxial order parameter, the electric toroidal moment. In total, 124 ferroaxial species are found, some of them being also fully ferroelectric (62) or fully ferroelastic ones (61). This ensures a possibility of electrical or mechanical switching of ferroaxial domains. Moreover, there are 12 ferroaxial species that are neither ferroelectric nor ferroelastic. For each species, we have also explicitly worked out a canonical form for a set of representative equilibrium property tensors of polar and axial nature in both high-symmetry and low-symmetry phases. This information was gathered into the set of 212 mutually different symbolic matrices, expressing graphically the presence of nonzero independent tensorial components and the symmetry-imposed links between them, for both phases simultaneously. Symmetry analysis reveals the ferroaxiality in several currently debated materials, such as VO_{2}, LuFe_{2}O_{4}, and URu_{2}Si_{2}.
针对具有宏观对称性破缺的212种结构相变,研究了铁轴序参量(即电环形矩)的出现情况。总共发现了124种铁轴物种,其中一些也是完全铁电的(62种)或完全铁弹的(61种)。这确保了铁轴畴进行电或机械切换的可能性。此外,有12种铁轴物种既不是铁电的也不是铁弹的。对于每种物种,我们还明确给出了一组在高对称相和低对称相中具有极性和轴向性质的代表性平衡性质张量的规范形式。这些信息被整理成一组212个互不相同的符号矩阵,同时以图形方式表示两个相中非零独立张量分量的存在以及它们之间由对称性决定的联系。对称性分析揭示了几种当前备受争议的材料中的铁轴性,如VO₂、LuFe₂O₄和URu₂Si₂。
