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Spontaneous Valley Polarization Caused by Crystalline Symmetry Breaking in Nonmagnetic LaOMX<sub>2</sub> Monolayers

Yushuo Xu, Yuanyuan Wang, Shuhua Wang, Shiqiang Yu, Baibiao Huang, Ying Dai, Wei Wei

2022Nano Letters15 citationsDOI

Abstract

In order to achieve valley polarization, breaking the time-reversal symmetry in two-dimensional hexagonal lattices with inversion asymmetry is the heart of current valleytronic research, which, however, has caused studies to stagnate due to the inevitable drawbacks. In this work, we go beyond the conventional paradigm and demonstrate the novel valley physics caused by lowering the crystalline symmetry instead of breaking the time-reversal symmetry. In particular, we translate our concept into concrete nonmagnetic LaOMX2 monolayers with a tetragonal lattice, confirming that a spontaneous structure distortion can cause the long-sought, considerably large valley polarization. In detail, the physics of valley–orbital coupling, valley–orbital–layer coupling, valley–contrasting linear dichroism, and interlayer exciton valleytronics are discussed.

Topics & Concepts

ValleytronicsCondensed matter physicsSymmetry breakingPoint reflectionTetragonal crystal systemAsymmetryMonolayerT-symmetryPolarization (electrochemistry)PhysicsHexagonal latticeLattice (music)Materials scienceChemistryFerromagnetismCrystal structureNanotechnologyCrystallographySuperconductivityQuantum mechanicsSpintronicsAcousticsAntiferromagnetismPhysical chemistry2D Materials and ApplicationsElectronic and Structural Properties of OxidesPerovskite Materials and Applications
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