Origin of Stripe and Quasi-Stripe CDW Structures in Monolayer MX$ _2$ compounds: Multivalley Free Energy Landscape
Keiji Nakatsugawa, Satoshi Tanda, Tatsuhiko N. Ikeda

TL;DR
This paper explains the origin of stripe and quasi-stripe charge density wave phases in monolayer MX$_2$ compounds through a topological defect and free energy landscape approach, challenging previous interaction-based models.
Contribution
It introduces a novel theoretical framework based on topological defects and harmonic interference to explain anisotropic CDW phases without assuming anisotropic interactions.
Findings
Anisotropic CDW phases can emerge naturally without anisotropic interactions.
The free energy landscape contains multiple local minima corresponding to different CDW phases.
The model predicts new possible CDW phases and offers insights into hidden states.
Abstract
Ultrathin sheets of transition metal dichalcogenides (MX) with charge density waves (CDWs) is increasingly gaining interest as a promising candidate for graphene-like devices. Although experimental data including stripe/quasi-stripe structure and hidden states have been reported, the ground state of ultrathin MX compounds and, in particular, the origin of anisotropic (stripe and quasi-stripe) CDW phases is a long-standing problem. Anisotropic CDW phases have been explained by Coulomb interaction between domain walls and inter-layer interaction. However, these models assume that anisotropic domain walls can exist in the first place. Here, we report that anisotropic CDW domain walls can appear naturally without assuming anisotropic interactions: We explain the origin of these phases by topological defect theory (line defects in a two-dimensional plane) and interference between…
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