Coherent surface-to-bulk vibrational coupling in the 2D topologically trivial insulator Bi2Se3 monitored by ultrafast transient absorption spectroscopy

TL;DR

This study uses ultrafast spectroscopy to reveal coherent vibrational coupling between surface and bulk states in 2D Bi2Se3, a topologically trivial insulator, highlighting how film thickness and excitation power influence energy exchange.

Contribution

It demonstrates direct observation of surface-to-bulk vibrational coupling in 2D Bi2Se3 and shows how this coupling varies with film thickness and excitation conditions.

Findings

Coherent LO phonon oscillations are launched in bulk and surface states.

Surface-to-bulk vibrational coupling is phase-dependent and prominent in the trivial insulator phase.

Coupling strength decreases with increased film thickness and pump power.

Abstract

Ultrafast carrier relaxation in the 2D topological insulator (TI) Bi2Se3 [gapped Dirac surface states (SS)] and how it inherits ultrafast relaxation in the 3D TI Bi2Se3 (gapless Dirac SS) remains a challenge for developing new optoelectronic devices based on these materials. Here ultrashort (100 fs) pumping pulses of ~340 nm wavelength (~3.65 eV photon energy) were applied to study ultrafast electron relaxation in the 2D TI Bi2Se3 films with a thickness of 2 and 5 quintuple layers (~2 and ~5 nm, respectively) using transient absorption (TA) spectroscopy in the ultraviolet-visible spectral region (1.65 - 3.85 eV). The negative and positive contributions of TA spectra were attributed to absorption bleaching that mostly occur in the bulk states and to the inverse bremsstrahlung type free carrier absorption in the surface states, respectively. Owing to this direct and selective access to the bulk and surface carrier dynamics, we were able to monitor coherent longitudinal optical (LO) phonon oscillations, which were successively launched in the bulk and surface states by the front of the relaxing electron population within the LO-phonon cascade emission. We have also recognized the coherent surface-to-bulk vibrational coupling that appears through the phase-dependent amplitude variations of coherent LO-phonon oscillations. This unique behavior manifests itself predominantly for the topologically trivial insulator phase of the 2D TI Bi2Se3 (2 nm thick film) in the photon energy range (~2.0 - 2.25 eV) where efficient energy exchange between the bulk and surface states occurs. We also found that the coherent surface-to-bulk vibrational coupling significantly weakens with increasing both the Bi2Se3 film thickness and pumping power.