Extremely low-energy collective modes in a quasi-one-dimensional system

Abstract

We have investigated the quasiparticle dynamics and collective excitations in the quasi-one-dimensional material ZrTe5 using ultrafast optical pump-probe spectroscopy. Our time-domain results reveal two coherent oscillations having extremely low energies of ω10.33 meV (0.08 THz) and ω21.9 meV (0.45 THz), which are softened as the temperature approaches two different critical temperatures (54 K and 135 K). We attribute these two collective excitations to the amplitude mode of charge density wave instabilities in ZrTe5 with tremendously small nesting wave vectors. Furthermore, scattering with the ω2 mode may result in a peculiar quasiparticle decay process with a timescale of 1-2 ps below the transition temperature T* (135 K). Our findings provide pivotal information for studying the fluctuating order parameters and their associated quasiparticle dynamics in various low-dimensional topological systems and other materials.