All-optical Control of the Magnetization in EuS, a Versatile Magnetic Insulator

Andre Henriques; Xavier Gratens; Pavel Usachev; Valmir Chitta; Yunbo Ou; Jagadeesh Moodera

All-optical Control of the Magnetization in EuS, a Versatile Magnetic Insulator

POSTER

Abstract

Finding new mechanisms of all-optical control of the magnetic state of matter is highly sought for the development of new devices and for optic based quantum computing. Recently we demonstrated that a single incident photon can generate several thousand spin coherent electrons in antiferromagnetic EuSe, by forming a supergiant spin polaron [1]. Because of the gigantic magnetic moment of the spin polaron, a tiny magnetic field can induce coherence in the spin polaron ensemble.
We extend this mechanism of magnetization control with few photons into other materials. Experimentally we show that in the Heisenberg ferromagnetic semiconductor EuS, near the Curie temperature, light induces spin polarons that are even larger than those observed in EuSe. Our Monte Carlo simulation offer a description of the magnetization process. The characteristic times of the spin polaron formation and extinction were measured using time-resolved pump-probe Faraday rotation. We shall present and discuss these results.

[1] A. B. Henriques et al, Phys. Rev. Lett. 120, 217203 (2018).

^*
Work supported by FAPESP (2017/24125-5), CNPq (401694/2012-7), and RSF (Project 17-12-01314). Work at MIT supported by NSF (DMR- 1700137), ONR (N00014-16-1-2657), and Center for Integrated Quantum Materials (NSF DMR-1231319).

Presenters

Pavel Usachev
- Departamento de Fisica dos Materiais, Universidade de Sao Paulo

Authors

Andre Henriques
- Departamento de Fisica dos Materiais, Universidade de Sao Paulo
Xavier Gratens
- Departamento de Fisica dos Materiais, Universidade de Sao Paulo
Pavel Usachev
- Departamento de Fisica dos Materiais, Universidade de Sao Paulo
Valmir Chitta
- Departamento de Fisica dos Materiais, Universidade de Sao Paulo
Yunbo Ou
- Dept. Of Physics, Plasma Science and Fusion Center and Francis Bitter Magnet Lab, Massachusetts Institute of Technology
- MIT
- Plasma Science and Fusion Center and Francis Bitter Magnet Laboratory, Massachusetts Institute of Technology
- Plasma Science and Fusion Center and Francis Bitter Magnet Laboratory, MIT, Cambridge, MA, 02139
Jagadeesh Moodera
- Dept. Of Physics, Plasma Science and Fusion Center and Francis Bitter Magnet Lab, Massachusetts Institute of Technology
- MIT
- Department of Physics, Massachusetts Institute of Technology
- Massachusetts Institute of Technology
- Department of Physics, Plasma Science and Fusion Center, and Francis Bitter Magnet Lab, Massachusetts Institute of Technology
- Plasma Science and Fusion Center and Francis Bitter Magnet Laboratory, MIT
- Plasma Science and Fusion Center, and Francis Bitter Magnet Laboratory, and Department of Physics, MIT
- Francis Bitter Magnet Laboratory and Plasma Science and Fusion Center, MASSACHUSETTS INSTITUTE OF TECHNOLOGY
- Plasma Science and Fusion Center and Francis Bitter Magnet Laboratory, Massachusetts Institute of Technology
- Physics, Francis Bitter Magnet Laboratory, Plasma Science and Fusion Center, Massachusetts Institute of Technology
- Department of Physics, MIT, Cambridge, MA, 02139