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Paper detail

Coupled Sublattice Melting and Charge-Order Transition in Two Dimensions

Two-dimensional melting is one of the most fascinating and poorly understood phase transitions in nature. Theoretical investigations often point to a two-step melting scenario involving unbinding of topological defects at two distinct temperatures. Here we report on a novel melting transition of a charge-ordered K-Sn alloy monolayer on a silicon substrate. Melting starts with short-range positional fluctuations in the K sublattice while maintaining long-range order, followed by longer-range K diffusion over small domains, and ultimately resulting in a molten sublattice. Concomitantly, the charge-order of the Sn host lattice collapses in a multi-step process with both displacive and order-disorder transition characteristics. Our combined experimental and theoretical analysis provides a rare insight into the atomistic processes of a multi-step melting transition of a two-dimensional materials system.

preprint2019arXivOpen access
Tyler S. SmithFangfei MingDaniel González TrabadaCésar GonzálezDiego Soler-PoloFernando FloresJosé OrtegaHanno H. Weitering
cond-mat.mes-hall
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Tyler S. SmithFangfei MingDaniel González TrabadaCésar GonzálezDiego Soler-PoloFernando FloresJosé OrtegaHanno H. Weitering

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