Mapping the dispersion of the occupied and unoccupied band structure in photoexcited 1T-TiSe2

Abstract: 

Charge density waves (CDW) are states of broken symmetry with a periodic modulation of charge and lattice typically leading to the opening of a gap in the band structure. In the model CDW system 1T-TiSe2 such a gap opens up between its Se4p valence and Ti3d conduction band, accompanied by a change of dispersion. These changes are crucial in understanding the CDW phase, as they provide a measure of the Se4p-Ti3d hybridization strength and characteristic mechanistic features. Using time- and angle-resolved photoelectron spectroscopy (trARPES), the unoccupied band structure is populated with near-infrared (NIR) pump pulses which allows to directly visualize the parabolically-shaped Ti3d conduction band. Furthermore, we observe a transient change of effective mass in the Se4p valence band following photoexcitation. This occurs alongside an overall reduction due to weakening of the CDW phase and is accompanied by an oscillating component with the frequency of the characteristic A1g phonon. These observations, enabled by trAPRES, highlight the importance of the lattice contributions in establishing the CDW order in 1T-TiSe2

Author: 
Huber, M
Lin, Y
Dale, N
Kaindl, RA
Lanzara, A
Publication date: 
September 1, 2022
Publication type: 
Journal Article