室温下通过硅量子点的多个量子态观察单电子输运。

Observation of single electron transport via multiple quantum states of a silicon quantum dot at room temperature.

机构信息

Department of Semiconductor Science, Dongguk University-Seoul , Seoul 100-715, Korea.

出版信息

Nano Lett. 2014 Jan 8;14(1):71-7. doi: 10.1021/nl403204k. Epub 2013 Dec 17.

Abstract

Single electron transport through multiple quantum levels is realized in a Si quantum-dot device at room-temperature conditions. The energy spacing of more than triple the omnipresent thermal energy is obtained from an extremely small ellipsoidal Si quantum dot, and high charge stability is attained through a construction of the gate-all-around structure. These properties may move us a step closer to practical applications of quantum devices at elevated temperatures. An in-depth analysis on the transport behavior and quantum structure is presented.

摘要

室温条件下，在硅量子点器件中实现了通过多个量子能级的单电子输运。通过极其微小的椭圆形硅量子点获得了超过普遍热能量三倍以上的能量间距，并通过全环绕栅极结构实现了高电荷稳定性。这些特性可能使我们更接近高温下量子器件的实际应用。本文对输运行为和量子结构进行了深入分析。

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室温下通过硅量子点的多个量子态观察单电子输运。

Observation of single electron transport via multiple quantum states of a silicon quantum dot at room temperature.

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室温下通过硅量子点的多个量子态观察单电子输运。

Observation of single electron transport via multiple quantum states of a silicon quantum dot at room temperature.

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