Optical Excitations of Flat Bands Induced by Exciton Condensation in Ta2Pd3Te5

Abstract

We report on the charge dynamics of Ta2Pd3Te5 using temperature-dependent optical spectroscopy with polarized light. We observe a metal-insulator transition characterized by the collapse of Drude response and the emergence of sharp and narrow absorption peaks at low temperatures. Unlike previous excitonic insulator candidates such as TiSe2 and Ta2NiSe5, where the excitonic order is intertwined with charge density wave or structural instabilities, the sharp features in Ta2Pd3Te5 point to intrinsic excitonic excitations associated with ultra-flat bands driven by many-body renormalization of the band structure via spontaneous exciton condensation. Our findings thus provide clear-cut optical evidence for exciton condensation in a bulk crystal and establish Ta2Pd3Te5 as a promising platform for exploring correlated quantum phases and novel excitonic phenomena.