期刊
NANO LETTERS
卷 22, 期 10, 页码 4240-4245出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.nanolett.2c01399
关键词
Ratchet; Nonequilibrium; Charge transport; Petahertz; Density functional theory; Femtosecond laser excitation
This study proposes a laser-driven quantum electron ratchet nanodevice, which uses bubble-shaped nanodiode structures to induce plasma oscillation in the vertical direction and funnel electrons towards a sharp tip for net electron transport in the horizontal direction.
A laser-driven quantum electron ratchet nanodevice is proposed. The ratchet consists of a series of disconnected bubble-shaped nanodiode structures with a sharp tip to induce a large field enhancement. A laser pulse is used to create a plasmon oscillation in the vertical direction, and the shape of the bubble funnels the electrons toward the sharp tip leading to net electron transport in the horizontal direction. The electron current carries the fingerprint of the driving laser field. The system is modeled by using the time-dependent orbital free density functional theory with nanostructures containing thousands of atoms
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