Time-resolved reflectivity and Raman studies of the interplay of enigmatic orders in Mo8O23

Abstract

Monoclinic semi-metallic Mo8O23 belongs to a multifunctional series of compounds showing multiple ordering phenomena that have not achieved much attention till now. Previous X-rays studies of this compound have revealed an incommensurate ordering transition at TIC350 K, followed by a structural transition to commensurate order at TIC-C=285 K. In addition, an enigmatic resistance maximum is observed at Tel150 K, whose origin has so far proved elusive. Aiming to disentangle these multiple orders we use the polarized transient optical spectroscopy supplemented by Raman spectroscopy to study the electronic relaxation dynamics and lattice vibrational modes in Mo8O23 single crystals. Remarkably, both the coherent vibrational mode response and single particle response display extrema of damping/relaxation times close to Tel with the concurrent appearance of new coherent vibrational modes and a characteristic polarization asymmetry which saturates below Tel. The single-particle relaxation data analysis shows the appearance of a temperature-independent gap in the electronic excitation spectrum below TIC and additional temperature-dependent gap opening near Tel. Concurrently, a low frequency vibrational mode shows anomalous softening around Tm200 K, far below TIC-C and TIC. The observations are interpreted in terms of the appearance of a hidden gapped state below Tel that has so far eluded detection by structural analyses.