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Room temperature depinning of the charge-density waves in quasi-two-dimensional 1T-TaS2 devices

Amirmahdi Mohammadzadeh, Adil Rehman, F. Kargar, Sergey Rumyantsev, Janusz Smulko, W. Knap, Roger K. Lake, Alexander A. Balandin

2021Applied Physics Letters28 citationsDOIOpen Access PDF

Abstract

We report on the depinning of nearly commensurate charge-density waves in 1T-TaS2 thin films at room temperature. A combination of the differential current–voltage measurements with the low-frequency noise spectroscopy provides unambiguous means for detecting the depinning threshold field in quasi-2D materials. The depinning process in 1T-TaS2 is not accompanied by an observable abrupt increase in electric current—in striking contrast to depinning in the conventional charge-density-wave materials with quasi-1D crystal structure. We explained it by the fact that the current density from the charge-density waves in the 1T-TaS2 devices is orders of magnitude smaller than the current density of the free carriers available in the discommensuration network surrounding the commensurate charge-density wave islands. The depinning fields in 1T-TaS2 thin-film devices are several orders of magnitude larger than those in quasi-1D van der Waals materials. Obtained results are important for the proposed applications of the charge-density wave devices in electronics.

Topics & Concepts

Condensed matter physicsCharge density waveMaterials sciencevan der Waals forceCurrent densityCharge densityNoise (video)Crystal (programming language)Charge (physics)Electric fieldPhysicsSuperconductivityArtificial intelligenceProgramming languageImage (mathematics)Computer scienceMoleculeQuantum mechanicsOrganic and Molecular Conductors Research2D Materials and ApplicationsQuantum and electron transport phenomena
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