Understanding magnetic focusing in graphene p-n junctions through quantum modeling

Samuel W. LaGasse; Ji Ung Lee

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Understanding magnetic focusing in graphene p-n junctions through quantum modeling

机译：通过量子建模了解石墨烯p-n结中的磁聚焦

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We present a quantum model which provides enhanced understanding of recent transverse magnetic focusing experiments on graphene p-n junctions. Spatially resolved flow maps of local particle current density show quantum interference and p-n junction filtering effects, which are crucial to explaining the device operation. The Landauer-Buttiker formula is used alongside dephasing edge contacts to give exceptional agreement between simulated nonlocal resistance and the recent experiment by Chen et al. [Science 353,1522 (2016)]. The origin of positive and negative focusing resonances and off-resonance characteristics are explained in terms of quantum transmission functions. Our model also captures subtle features from experiment, such as the p-p~- to p-p+ transition and the second p-n focusing resonance.

机译：我们提出了一个量子模型，该模型提供了对石墨烯p-n结上最近的横向磁聚焦实验的增强理解。局部粒子电流密度的空间分辨流图显示了量子干扰和p-n结滤波效应，这对于解释器件的工作至关重要。 Landauer-Buttiker公式与移相边缘接触一起使用，从而在模拟的非局部电阻与Chen等人最近的实验之间取得了特殊的一致性。 [科学353,1522（2016）]。正负聚焦共振和非共振特性的起源是根据量子传输函数来解释的。我们的模型还捕获了实验中的细微特征，例如从p-p〜-到p-p +的跃迁和第二个p-n聚焦共振。

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《Physical review. B, Condensed Matter And Materals Physics》 |2017年第15期|155433.1-155433.8|共8页
作者
Samuel W. LaGasse; Ji Ung Lee;
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Colleges of Nanoscale Science and Engineering, SUNY Polytechnic Institute, Albany, New York 12203, USA;

Colleges of Nanoscale Science and Engineering, SUNY Polytechnic Institute, Albany, New York 12203, USA;

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1. Understanding magnetic focusing in graphene p-n junctions through quantum modeling [J] . LaGasse Samuel W., Lee Ji Ung Physical review, B . 2017,第15期

机译：了解通过量子建模的石墨烯P-N结中的磁性聚焦
2. Understanding magnetic focusing in graphene p-n junctions through quantum modeling [J] . Samuel W. LaGasse, Ji Ung Lee Physical Review. B, Condensed Matter . 2017,第15a16CD期

机译：了解通过量子建模的石墨烯P-N结中的磁性聚焦
3. APS -APS March Meeting 2017 - Event - Quantum transport modeling of magnetic focusing in graphene p-n junctions [J] . Samuel LaGasse, Ji Ung Lee Bulletin of the American Physical Society . 2017,第4期

机译：APS -APS 2017年3月会议-活动-石墨烯p-n结中磁聚焦的量子传输建模
4. Models for plasmonic THz detectors based on graphene split-gate FETs with lateral p-n junctions [C] . Maxim Ryzhii, Victor Ryzhii, Akira Satou, International Conference on Simulation of Semiconductor Processes and Devices . 2016

机译：基于具有侧向p-n结的石墨烯分栅FET的等离子太赫兹检测器模型
5. Surface Potential Measurements of Reconfigurable p-n Junctions in Graphene. [D] . Wang, Yunfei. 2012

机译：石墨烯中可重构p-n结的表面电势测量。
6. Quantum transport in graphene p-n junctions with moiré superlattice modulation [O] . Jiuning Hu, Albert F. Rigosi, Ji U. Lee, -1

机译：莫尔超晶格调制在石墨烯p-n结中的量子输运
7. Understanding magnetic focusing in graphene $p$-$n$ junctions through quantum modeling [O] . LaGasse, Samuel W, Lee, Ji Ung 2016

机译：了解石墨烯中的磁聚焦$ p $ - $ n $ 量子建模

Understanding magnetic focusing in graphene p-n junctions through quantum modeling

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