Observation of excitonic Floquet states in a one-dimensional organic Mott insulator using mid-infrared pump near-infrared probe reflection spectroscopy

TL;DR

This study experimentally observes excitonic Floquet states in a one-dimensional Mott insulator using mid-infrared pump near-infrared probe spectroscopy, revealing Floquet sidebands and their dependence on excitonic properties.

Contribution

First experimental detection of excitonic Floquet states in a solid, demonstrating the formation of Floquet sidebands via transient reflectivity measurements.

Findings

Detection of Floquet sidebands in excitonic states

Spectral shape depends on excitonic state widths

Effective method for studying Floquet states in solids

Abstract

When an electric field of light with a frequency of{\hbar}{\Omega}is applied to a solid, Floquet states, consisting of sidebands with an interval of {\hbar}{\Omega} around an electronic state, are expected to be formed. However, only a few studies have experimentally detected such sidebands. Here, we apply mid-infrared pump near-infrared reflection probe spectroscopy to a one-dimensional Mott insulator, bis(ethylendithio)tetrathianfulvalence-difluorotetracyanoquinodimethane (ET-F2TCNQ), to detect the transient change in reflectivity R,{\Delta}R/R, due to the formation of excitonic Floquet states. Analyses, considering both odd- and even-parity excitons, demonstrate that the {\Delta}R/R spectrum reflects the formation of the first-order Floquet sidebands of excitons, and its spectral shape strongly depends on the widths of excitonic states. The experimental and analytical approach reported here is effective in demonstrating excitonic Floquet states in various solids.