Ultrafast Magnetic Control in the Spin-orbit Coupled Iridate Sr<sub>2</sub>IrO<sub>4</sub>

Gu-Feng Zhang; Jingdi Zhang; Xiang Chen; Stephen Wilson; Richard Averitt

Ultrafast Magnetic Control in the Spin-orbit Coupled Iridate Sr₂IrO₄

ORAL

Abstract

The spin-orbit coupled Mott insulator Sr₂IrO₄ has attracted considerable attention because of its exotic J_eff=1/2 Mott state arising from the interplay of on-site Coulomb repulsion and strong spin-orbit coupling. It is of interest to investigate how the magnetization dynamically evolves in response to electromagnetic excitation. We measured the dynamic properties of the J_eff=1/2 Mott state using strong sub-gap excitation (THz and mid-IR), monitoring the induced Kerr signal. THz-induced Kerr rotation is observed below T_N (230K), following the THz pulse shape. Notably, for mid-IR circularly polarized excitation, we observe a strong temperature dependent Kerr rotation below 100K. We will discuss the possible origin of the observed dynamics in this intriguing material.

March 9, 2018, 3:27 PM – March 9, 2018, 3:39 PM

Presenters

Gu-Feng Zhang

Physics, University of California, San Diego

Authors

Gu-Feng Zhang

Physics, University of California, San Diego
Jingdi Zhang

Physics, University of California, San Diego, Physics, Univ of California - San Diego, University of California San Diego, Department of Physics, University of California San Diego
Xiang Chen

Materials, University of California, Santa Barbara
Stephen Wilson

Materials, University of California, Santa Barbara, Materials Department, University of California, Santa Barbara, University of California, University of California, Santa Barbara, Materials Department, UCSB
Richard Averitt

Physics, University of California, San Diego, Physics, Univ of California - San Diego, Univ of California - San Diego, Department of Physics, University of California San Diego, Department of Physics, Univ of California - San Diego, University of California San Diego