Creation of Nonthermal Excited State Populations in a Large U Mott Insulator

Daniel Nevola; Alexander W Bataller; Ankit Kumar; Samanvitha Sridhar; Jordan Frick; Shaun O'Donnell; Harald W Ade; Paul Maggard; Alexander F Kemper; Kenan Gundogdu; Daniel Dougherty

Creation of Nonthermal Excited State Populations in a Large U Mott Insulator

ORAL

Abstract

The ability to tune between thermal and nonthermal populations lies at the heart at the heart of quantum control on ultrafast timescales. In this work, we perform time-and-angle resolved spectroscopy on the spin-orbit assisted Mott insulator α-RuCl₃. We demonstrate the ability to tune between thermalized and nonthermalized populations in the upper Hubbard band by tuning the pump energy. These populations are also shown to thermalize and decay on timescales much faster than those predicted by theory.

^*Surface characterization (ARPES, 2PPE, and LEED) was funded by the U.S. Department of Energy, Office of Science, Basic Energy Sciences under award No. DE-SC0010324. 2PPE instrumentation was funded by a UNC-GA ROI award. Theoretical modeling was supported by the National Science Foundation under Grant No. DMR-1752713.

March 4, 2020, 1:39 PM – March 4, 2020, 1:51 PM

Presenters

Daniel Nevola
- Brookhaven National Laboratory

Authors

Daniel Nevola
- Brookhaven National Laboratory
Alexander W Bataller
- North Carolina State University
Ankit Kumar
- North Carolina State University
- Department of Physics, North Carolina State University
Samanvitha Sridhar
- North Carolina State University
Jordan Frick
- North Carolina State University
Shaun O'Donnell
- North Carolina State University
Harald W Ade
- North Carolina State University
Paul Maggard
- North Carolina State University
Alexander F Kemper
- Department of Physics, North Carolina State University
- North Carolina State University
- Physics, North Carolina State University
Kenan Gundogdu
- North Carolina State University
Daniel Dougherty
- North Carolina State University