期刊
ACS NANO
卷 15, 期 11, 页码 18483-18493出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsnano.1c08208
关键词
silicon; quantum dot; single-electron tunneling; multivalue logic; room-temperature operation
类别
资金
- National Research Foundation of Korea through Basic Science Research Programs [2016R1A6A1A03012877, 2017R1A2B4004281, 2019R1A2C1085448]
- Korean Government
This study demonstrates reconfigurable multivalue logic functions on an all-around-gate silicon ellipsoidal quantum-dot transistor, with precise self-control of the energetic Coulomb blockade conditions achieved by changing the applied bias voltage. This self-controllability provides a great advantage in choosing multiple operation points and effectively demonstrates weighted data states.
Reconfigurable multivalue logic functions, which can perform the versatile arithmetic computation of weighted electronic data information, are demonstrated at room temperature on an all-around-gate silicon ellipsoidal quantum-dot transistor. The large single-hole transport energy of the silicon quantum ellipsoid allows the stable M-shaped Coulomb blockade oscillation characteristics at room temperature, and the all-around-gate structure of the fabricated transistor enables us to perform the precise self-control of the energetic Coulomb blockade conditions by changing the applied bias voltage. Such a self-controllability of the M-shaped Coulomb blockade oscillation characteristics provides a great advantage to choose multiple operation points for the reconfigurable multivalue logic functions. Consequently, the weighted data states (e.g., tri-value and quattro-value) are effectively demonstrated by utilizing only the device physics in the all-around-gate silicon ellipsoidal quantum-dot transistor. These findings are of great benefit for the practical application of the silicon quantum device at an elevated temperature for future nanoelectronic information technology.
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