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Novel Magnetic Quantization of sp$^{3}$ Bonding in Monolayer Tinene

A generalized tight-binding model, which is based on the subenvelope functions of the different sublattices, is developed to explore the novel magnetic quantization in monolayer gray tin. The effects due to the $sp^{3}$ bonding, the spin-orbital coupling, the magnetic field and the electric field are simultaneously taken into consideration. The unique magneto-electronic properties lie in two groups of low-lying Landau levels, with different orbital components, localization centers, state degeneracy, spin configurations, and magnetic- and electric-field dependences. The first and second groups mainly come from the $5p_{z}$ and ($5p_{x}$,$5p_{y}$) orbitals, respectively. Their Landau-level splittings are, respectively, induced by the electric field and spin-orbital interactions. The intragroup anti-crossings are only revealed in the former. The unique tinene Landau levels are absent in graphene, silicene and germanene.

preprint2015arXivOpen access
Szu-Chao ChenChung-Lin WuJhao-Ying WuMing-Fa Lin
cond-mat.mes-hall
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Szu-Chao ChenChung-Lin WuJhao-Ying WuMing-Fa Lin

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