APS -APS March Meeting 2017 - Event - Quantum Conductance of Graphene Field Effect Transistor on SrTiO$_{mathrm{mathbf{3hinspace }}}$extbf{Epitaxial Thin Film}

Jeongmin Park; Haeyong Kang; Kyeong Tae Kang; Yoojoo Yun; Young Hee Lee; Woo Seok Choi; Dongseok Suh

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APS -APS March Meeting 2017 - Event - Quantum Conductance of Graphene Field Effect Transistor on SrTiO$_{mathrm{mathbf{3hinspace }}}$extbf{Epitaxial Thin Film}

机译：APS -APS 2017年3月会议-事件-SrTiO $ _ {mathrm {mathbf {3hinspace}}} $ extbf {Epitaxial Thin Film}上石墨烯场效应晶体管的量子电导

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In this work [1], graphene field effect transistor (FET) combined with epitaxial SrTiO$_{mathrm{3}}$ (STO) thin film of ultrahigh-k dielectric constant, was examined to check the possibility of gate-voltage scaling. Due to the atomically flat surface of thin STO film grown on Nb-doped STO single-crystal substrate, the interface between graphene and STO showed good adhesion and nonhysteretic electrical conduction as function of gate bias was observed in all temperature ranges down to 2 K. Furthermore, quantized conductance corresponding to quantum Hall state was observed up to 200 K in a magnetic field of 14 T. We noticed that the temperature-dependent shift of charge neutrality point in graphene FET is correlated with the STO's dielectric constant variation. In addition, from the analysis of the universality of quantum phenomena in graphene, effective dielectric properties of STO thin film could be deduced. Our results indicate that operating gate bias was reduced successfully by using high-k STO thin film as gate insulator, without any drawback of graphene FET performance.[1] J. Park et. al., Nano Lett., 2016, 16 (3), pp 1754--1759

机译：在这项工作中[1]，研究了石墨烯场效应晶体管（FET）与超高k介电常数的外延SrTiO $ _ {mathrm {3}} $（STO）薄膜的组合，以检查栅极电压缩放的可能性。由于在掺Nb的STO单晶衬底上生长的STO薄膜的原子表面平坦，因此在低至2 K的所有温度范围内，石墨烯与STO之间的界面均表现出良好的粘附性，并且随着栅极偏压的变化，无磁滞的导电性也得以观察到。此外，在14 T的磁场中，直至200 K都观察到了与量子霍尔态相对应的量化电导。我们注意到，石墨烯FET中电荷中性点的温度依赖性位移与STO的介电常数变化相关。另外，通过分析石墨烯中量子现象的普遍性，可以推论出STO薄膜的有效介电性能。我们的结果表明，通过使用高k STO薄膜作为栅极绝缘体可以成功降低工作栅极偏置，而没有石墨烯FET性能的任何缺点。[1] J.Park等等，Nano Lett。，2016，16（3），第1754--1759页

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《Bulletin of the American Physical Society》 |2017年第4期|共页
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Jeongmin Park; Haeyong Kang; Kyeong Tae Kang; Yoojoo Yun; Young Hee Lee; Woo Seok Choi; Dongseok Suh;
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APS -APS March Meeting 2017 - Event - Quantum Conductance of Graphene Field Effect Transistor on SrTiO$_{mathrm{mathbf{3hinspace }}}$extbf{Epitaxial Thin Film}

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