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Endotaxial Stabilization of 2D Charge Density Waves with Long-range Order

Authors :
Sung, Suk Hyun
Agarwal, Nishkarsh
Baggari, Ismail El
Goh, Yin Min
Kezer, Patrick
Schnitzer, Noah
Liu, Yu
Lu, Wenjian
Sun, Yuping
Kourkoutis, Lena F.
Heron, John T.
Sun, Kai
Hovden, Robert
Publication Year :
2023

Abstract

Charge density waves are emergent quantum states that spontaneously reduce crystal symmetry, drive metal-insulator transitions, and precede superconductivity. In low-dimensions, distinct quantum states arise, however, thermal fluctuations and external disorder destroy long-range order. Here we stabilize ordered two-dimensional (2D) charge density waves through endotaxial synthesis of confined monolayers of 1T-TaS$_2$. Specifically, an ordered incommensurate charge density wave (oIC-CDW) is realized in 2D with dramatically enhanced amplitude and resistivity. By enhancing CDW order, the hexatic nature of charge density waves becomes observable. Upon heating via in-situ TEM, the CDW continuously melts in a reversible hexatic process wherein topological defects form in the charge density wave. From these results, new regimes of the CDW phase diagram for 1T-TaS$_2$ are derived and consistent with the predicted emergence of vestigial quantum order.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....8c8ace5325deb48cf11994cdb06e1598