Infrared phonon spectra of quasi-one-dimensional Ta2NiSe5 and Ta2NiS5

Abstract

Using a combination of infrared ellipsometry, time-domain terahertz spectroscopy, and far-infrared reflectometry we have obtained the ac-plane complex dielectric function of monoclinic (C2/c) Ta2NiSe5 and orthorhombic (Cmcm) Ta2NiS5 single crystals. The identified dipole-active phonon modes polarized along a and c axes are in good agreement with density functional theory calculations. With increasing temperature the a-axis phonon modes of Ta2NiSe5 become poorly discernible, as they are superimposed on the electronic background which gradually fills the energy gap near the monoclinic-to-orthorhombic phase transition temperature Tc = 326 K. In Ta2NiS5, which does not exhibit such a structural transition and remains orthorhombic down to low temperatures, the a-axis phonon modes are superimposed on a persistent broad electronic mode centered near 16 meV. We attribute this difference to strongly overlapping exciton-phonon complexes in Ta2NiSe5, as opposed to isolated instances of the same in Ta2NiS5, and find this to be in good agreement with an excitonic insulator state below Tc in the former, as compared to the absence of one in the latter.