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Observation of Valley Zeeman and Quantum Hall Effects at Q Valley of Few-Layer Transition Metal Disulfides

In few-layer (FL) transition metal dichalcogenides (TMDC), the conduction bands along the Gamma-K directions shift downward energetically in the presence of interlayer interactions, forming six Q valleys related by three-fold rotational symmetry and time reversal symmetry. In even-layers the extra inversion symmetry requires all states to be Kramers degenerate, whereas in odd-layers the intrinsic inversion asymmetry dictates the Q valleys to be spin-valley coupled. In this Letter, we report the transport characterization of prominent Shubnikov-de Hass (SdH) oscillations for the Q valley electrons in FL transition metal disulfide (TMDs), as well as the first quantum Hall effect (QHE) in TMDCs. Our devices exhibit ultrahigh field-effect mobilities (~16,000 cm2V-1s-1 for FL WS2 and ~10,500 cm2V-1s-1 for FL MoS2) at cryogenic temperatures. Universally in the SdH oscillations, we observe a valley Zeeman effect in all odd-layer TMD devices and a spin Zeeman effect in all even-layer TMD devices.

preprint2015arXivOpen access
Zefei WuShuigang XuHuanhuan LuGui-Bin LiuArmin KhamoshiTianyi HanYingying WuJiangxiazi LinGen LongYuheng HeYuan CaiFan ZhangNing Wang
cond-mat.mes-hall
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Zefei WuShuigang XuHuanhuan LuGui-Bin LiuArmin KhamoshiTianyi HanYingying WuJiangxiazi LinGen LongYuheng HeYuan CaiFan ZhangNing Wang

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