First-principles study of the electron/spin-phonon interaction in compressed FeSe crystal and FeSe/STO system

By using the first-principles calculations with van der Waals corrections, we have studied the electronic structures, lattice dynamics, and magnetic properties of crystal FeSe under hydrostatic pressure [1] and FeSe/STO system [2,3]. For bulk FeSe, the frequencies of all optical phonon modes increase with pressure. In a range between 5 and 6 GPa, the frequency of the A$_{\mathrm{1g}}$ mode, which relates to the Se height from the Fe-Fe plane, shows a sudden jump. This is also the pressure range within which the highest superconducting transition temperature Tc of FeSe is reached in experiments. In comparison with the other phonon modes, the zero-point atomic displacement of the A$_{\mathrm{1g}}$ mode also induces the strongest variation of local magnetic moment on Fe, which reaches the maximum around 5 GPa. These results suggest that the effect of phonon via spin-phonon coupling could not be omitted. For monolayer FeSe epitaxial film on SrTiO$_{\mathrm{3}}$, the combined effect of electron doping and phonon readily leads to magnetic frustration between the collinear antiferromagnetic state and checkerboard antiferromagnetic Neel state. For bilayer FeSe epitaxial film on SrTiO$_{\mathrm{3}}$, such a magnetic frustration is much easier induced by electron doping in its bottom layer than its top layer. The underlying physics is that the doped electrons are accumulated at the interface between the FeSe layers and the substrate. These results are consistent with the existing experimental studies. [1] Q.-Q. Ye, K. Liu, and Z.-Y. Lu, Influence of spin-phonon coupling on antiferromagnetic spin fluctuations in FeSe under pressure: First-principles calculations with van derWaals corrections. Phys. Rev. B \textbf{88}, 205130 (2013). [2] K. Liu, Z.-Y. Lu, and T. Xiang, Atomic and electronic structures of FeSe monolayer and bilayer thin films on SrTiO3 (001):First-principles study. Phys. Rev. B \textbf{85}, 235123 (2012). [3] K. Liu, B.-J.Zhang, and Z.-Y. Lu, First-principles study of magnetic frustration in FeSe epitaxial films on SrTiO3. Submitted.