Photoinduced nonequilibrium dynamics in charge ordered materials
Document Type
Article
Publication Date
3-21-2018
Abstract
We study the nonequilibrium dynamics of photoinduced phase transitions in charge ordered (CO) systems with a strong electron-lattice interaction and analyze the interplay between electrons, periodic lattice distortions, and a phonon thermal reservoir. Simulations based on a tight-binding Hamiltonian and Boltzmann equations reveal partially decoupled oscillations of the electronic order parameter and the periodic lattice distortion during CO melting, which becomes more energy efficient with lower photon energy. The cooling rate of the electron system correlates with the CO gap dynamics, responsible for an order of magnitude decrease in the cooling rate upon the gap reopening. We also find that the time-dependent frequency of coherent oscillation reflects the dynamics of the energy landscape, such as transition between single-well and double-well, which sensitively depends on the photon energy and the pump fluence. The results demonstrate the intricate nonequilibrium dynamics in CO materials.
Identifier
85044305095 (Scopus)
Publication Title
Journal of Applied Physics
External Full Text Location
https://doi.org/10.1063/1.5018045
e-ISSN
10897550
ISSN
00218979
Issue
11
Volume
123
Grant
DE-FG02-03ER46097
Fund Ref
Argonne National Laboratory
Recommended Citation
Zhu, Linghua; Seman, Tsezar F.; Van Veenendaal, Michel; and Ahn, Keun Hyuk, "Photoinduced nonequilibrium dynamics in charge ordered materials" (2018). Faculty Publications. 8772.
https://digitalcommons.njit.edu/fac_pubs/8772
