# Ultrafast spin dynamics in the proximate quantum spin liquid   {\alpha}-RuCl3

**Authors:** Haochen Zhang, Subin Kim, Young-June Kim, Hae-Young Kee, and Luyi Yang

arXiv: 1908.04807 · 2024-08-23

## TL;DR

This study investigates ultrafast spin dynamics in {	extalpha}-RuCl3, revealing field-sensitive photoexcited states and unconventional spin excitations that could indicate novel quantum spin liquid behavior.

## Contribution

It provides the first ultrafast transient grating spectroscopy measurements of spin dynamics in {	extalpha}-RuCl3, highlighting field-sensitive photoexcited states in the Kitaev paramagnetic phase.

## Key findings

- Observation of long-range antiferromagnetic correlations near Néel temperature.
- Detection of a field-sensitive photoexcitation component above Nél temperature.
- Identification of two distinct lifetimes for photoexcited states, tens of picoseconds long.

## Abstract

{\alpha}-RuCl3 is a Kitaev material suggested to be a proximate quantum spin liquid in a certain temperature and magnetic field range. Nonequilibrium measurements of transient dynamics have been proposed to detect fractionalized particles that emerge in the spin liquid and to possibly drive the system into novel photoinduced magnetic states that cannot be accessed by conventional equilibrium probes. Here we study ultrafast spin dynamics of photoinduced excitations in {\alpha}-RuCl3 using pump-probe transient grating spectroscopy. In the real part of the complex transient reflectance change {\Delta}R/R, we observe the long-range antiferromagnetic correlation near the N\'eel temperature. Most intriguingly, above the N\'eel temperature in the Kitaev paramagnetic phase, we reveal a photoexcitation component sensitive to the in-plane magnetic field in the imaginary part of {\Delta}R/R. This component exhibits two distinct lifetimes of about tens of picoseconds. This photoexcitation component may be connected to novel photoexcited states in the Kitaev quantum spin liquid, and its lifetimes likely reflect the dynamics of unconventional spin excitations in the Kitaev model.

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Source: https://tomesphere.com/paper/1908.04807