Litcius/Paper detail

Polymorphic Spin, Charge, and Lattice Waves in Vanadium Ditelluride

Dongyeun Won, Do Hoon Kiem, Hwanbeom Cho, Dohyun Kim, Younghak Kim, Min Yong Jeong, Changwon Seo, Jeongyong Kim, Je‐Geun Park, Myung Joon Han, Heejun Yang, Suyeon Cho

2020Advanced Materials48 citationsDOI

Abstract

Abstract Lattice distortion, spin interaction, and dimensional crossover in transition metal dichalcogenides (TMDs) have led to intriguing quantum phases such as charge density waves (CDWs) and 2D magnetism. However, the combined effect of many factors in TMDs, such as spin–orbit, electron–phonon, and electron–electron interactions, stabilizes a single quantum phase at a given temperature and pressure, which restricts original device operations with various quantum phases. Here, nontrivial polymorphic quantum states, CDW phases, are reported in vanadium ditelluride (VTe 2 ) at room temperature, which is unique among various CDW systems; the doping concentration determines the formation of either of the two CDW phases in VTe 2 at ambient conditions. The two CDW polymorphs show different antiferromagnetic spin orderings in which the vanadium atoms create two different stripe‐patterned spin waves. First‐principles calculations demonstrate that the magnetic ordering is critically coupled with the corresponding CDW in VTe 2 , which suggests a rich phase diagram with polymorphic spin, charge, and lattice waves all coexisting in a solid for new conceptual quantum state‐switching device applications.

Topics & Concepts

Condensed matter physicsAntiferromagnetismPhase diagramMaterials scienceMagnetismSpin crossoverPhononCharge orderingVanadiumElectronQuantumLattice (music)DopingCharge (physics)Phase (matter)PhysicsQuantum mechanicsMetallurgyAcoustics2D Materials and ApplicationsPerovskite Materials and ApplicationsElectronic and Structural Properties of Oxides