Charge Detection In Graphene Quantum Dots

J. Guettinger; C. Stampfer; S. Hellmueller; F. Molitor; T. Ihn; K. Ensslin

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Charge Detection In Graphene Quantum Dots

机译：石墨烯量子点中的电荷检测

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We report measurements on a graphene quantum dot with an integrated graphene charge detector. The quantum dot device consists of a graphene island (diameter of ～200 nm) connected to source and drain contacts via two narrow graphene constrictions. From Coulomb diamond measurements a charging energy of 4.3 meV is extracted. The charge detector is based on a 45 nm wide graphene nanoribbon placed approximately 60 nm from the island. We show that resonances in the nanoribbon can be used to detect individual charging events on the quantum dot. The charging induced potential change on the quantum dot causes a steplike change in the current in the charge detector. The relative change in the current ranges from 10% up to 60% for detecting individual charging events.

机译：我们报告了集成石墨烯电荷检测器对石墨烯量子点的测量结果。量子点装置由一个石墨烯岛（直径约200 nm）组成，该石墨烯岛通过两个狭窄的石墨烯缩颈连接到源极和漏极触点。从库仑钻石测量中提取出4.3 meV的充电能量。电荷检测器基于距岛约60 nm的45 nm宽的石墨烯纳米带。我们表明，纳米带中的共振可用于检测量子点上的单个充电事件。量子点上的电荷感应电势变化会导致电荷检测器中电流的阶跃变化。电流的相对变化范围从10％到60％，以检测单个充电事件。

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《Applied Physicsletters》 |2008年第21期|43-45|共3页
作者
J. Guettinger; C. Stampfer; S. Hellmueller; F. Molitor; T. Ihn; K. Ensslin;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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入库时间 2022-08-18 03:20:52

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Charge Detection In Graphene Quantum Dots

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