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Paper detail

Possible Kitaev Quantum Spin Liquid State in 2D Materials with S=3/2

Quantum spin liquids (QSLs) form an extremely unusual magnetic state in which the spins are highly correlated and fluctuate coherently down to the lowest temperatures, but without symmetry breaking and without the formation of any static long-range-ordered magnetism. Such intriguing phenomena are not only of great fundamental relevance in themselves, but also hold the promise for quantum computing and quantum information. Among different types of QSLs, the exactly solvable Kitaev model is attracting much attention, with most proposed candidate materials, e.g., RuCl$_3$ and Na$_2$IrO$_3$, having an effective $S$=1/2 spin value. Here, via extensive first-principle-based simulations, we report the investigation of the Kitaev physics and possible Kitaev QSL state in epitaxially strained Cr-based monolayers, such as CrSiTe$_3$, that rather possess a $S$=3/2 spin value. Our study thus extends the playground of Kitaev physics and QSLs to 3$d$ transition metal compounds.

preprint2020arXivOpen access
Changsong XuJunsheng FengMitsuaki KawamuraYouhei YamajiYousra NahasSergei ProkhorenkoYang QiHongjun XiangL. Bellaiche
cond-mat.str-elcond-mat.mtrl-sci
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Changsong XuJunsheng FengMitsuaki KawamuraYouhei YamajiYousra NahasSergei ProkhorenkoYang QiHongjun XiangL. Bellaiche

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