Nonlinear nanocircuitry based on quantum tunneling effects

dc.contributor.author	Chen, Pai-Yen
dc.contributor.author	Le, Quang Khai
dc.contributor.author	Alù, Andrea
dc.date.issued	2015
dc.identifier.uri	https://thuvienso.hoasen.edu.vn/handle/123456789/11029
dc.description.abstract	Metatronics, or metamaterial-inspired optical nanocircuitry, has provided a powerful toolset to tailor and implement modular quasi-static circuit functionalities in the optical regime. So far, these concepts have been mostly limited to linear operations, while many of the relevant operations in integrated circuits require nonlinear responses. In this work, we introduce nonlinear infrared nanocircuit elements exploiting large quantum conductance driven by photon-assisted tunneling and enhanced by hybrid plasmonic nanojunctions. Based on these concepts, we present infrared lumped nanocircuit mixers and switches for second-harmonic generation, and wide-spectrum self-amplitude modulators based on nanorods.
dc.format	Pp. 565-571
dc.language.iso	en
dc.source	MRS Communications. Volume 5, Issue 4
dc.subject	Metatronics
dc.subject	Nonlinear nanocircuitry
dc.title	Nonlinear nanocircuitry based on quantum tunneling effects
dc.type	Article