Microstructure properties, phase transitions, and charge ordering in the LuFe2O4 materials have been extensively investigated by means of transmission electron microscopy (TEM). The (001) twins as a common defect frequently appear in the LuFe2O4 crystals along the c-axis direction, and the crystals across each boundary are rotated by 180 degree with respect to one another. The in-situ cooling TEM observations reveal remarkable temperature dependence of the superstructures in correlation with charger ordering (CO). The Fe2+, Fe3+, and Fe+2.5 ions are found to be crystallized in ordered stripes at the frustrated ground state characterized by a modulation with the wave vector of q1 =(1/3 1/3 2). In-situ heating TEM observations on LuFe2O4 clearly demonstrate that this modulation becomes evidently invisible above a critical temperature of about Tc=530K. These facts suggest that the CO should be the essential driving force for the structural transitions and ferroelectricity observed in present system.
@article{arxiv.cond-mat/0703102,
title = {Microstructure and charge-ordering transitions in LuFe2O4},
author = {Y. Zhang and H. X. Yang and C. Ma and H. F. Tian and J. Q. Li *},
journal= {arXiv preprint arXiv:cond-mat/0703102},
year = {2007}
}