Litcius/Paper detail

Observation of the polaronic character of excitons in a two-dimensional semiconducting magnet CrI3

Wencan Jin, Hyun Ho Kim, Zhipeng Ye, Gaihua Ye, Laura Rojas, Xiangpeng Luo, Bowen Yang, Fangzhou Yin, Jason Shih An Horng, Shangjie Tian, Yang Fu, Gongjun Xu, Hui Deng, Hechang Lei, Adam W. Tsen, Kai Sun, Rui He, Liuyan Zhao

2020Nature Communications62 citationsDOIOpen Access PDF

Abstract

Abstract Exciton dynamics can be strongly affected by lattice vibrations through electron-phonon coupling. This is rarely explored in two-dimensional magnetic semiconductors. Focusing on bilayer CrI 3 , we first show the presence of strong electron-phonon coupling through temperature-dependent photoluminescence and absorption spectroscopy. We then report the observation of periodic broad modes up to the 8th order in Raman spectra, attributed to the polaronic character of excitons. We establish that this polaronic character is dominated by the coupling between the charge-transfer exciton at 1.96 eV and a longitudinal optical phonon at 120.6 cm −1 . We further show that the emergence of long-range magnetic order enhances the electron-phonon coupling strength by ~50% and that the transition from layered antiferromagnetic to ferromagnetic order tunes the spectral intensity of the periodic broad modes, suggesting a strong coupling among the lattice, charge and spin in two-dimensional CrI 3 . Our study opens opportunities for tailoring light-matter interactions in two-dimensional magnetic semiconductors.

Topics & Concepts

ExcitonCondensed matter physicsAntiferromagnetismFerromagnetismCoupling (piping)PhysicsRaman spectroscopyPhononPhotoluminescencePolaronCharacter (mathematics)Spin (aerodynamics)MagnonLattice (music)Materials scienceMagnetic fieldInductive couplingBilayerCoupling strengthAbsorption spectroscopyCharge (physics)Hamiltonian (control theory)Magnetic semiconductorMagnetAbsorption (acoustics)2D Materials and ApplicationsElectronic and Structural Properties of OxidesIron-based superconductors research