Teun-Teun Kim scite author profile

The extraordinary electronic properties of graphene provided the main thrusts for the rapid advance of graphene electronics. In photonics, the gate-controllable electronic properties of graphene provide a route to efficiently manipulate the interaction of photons with graphene, which has recently sparked keen interest in graphene plasmonics. However, the electro-optic tuning capability of unpatterned graphene alone is still not strong enough for practical optoelectronic applications owing to its non-resonant Drude-like behaviour. Here, we demonstrate that substantial gate-induced persistent switching and linear modulation of terahertz waves can be achieved in a two-dimensional metamaterial, into which an atomically thin, gated two-dimensional graphene layer is integrated. The gate-controllable light-matter interaction in the graphene layer can be greatly enhanced by the strong resonances of the metamaterial. Although the thickness of the embedded single-layer graphene is more than six orders of magnitude smaller than the wavelength (<λ/1,000,000), the one-atom-thick layer, in conjunction with the metamaterial, can modulate both the amplitude of the transmitted wave by up to 47% and its phase by 32.2° at room temperature. More interestingly, the gate-controlled active graphene metamaterials show hysteretic behaviour in the transmission of terahertz waves, which is indicative of persistent photonic memory effects.

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Electrical access to critical coupling of circularly polarized waves in graphene chiral metamaterials

Kim

et al. 2017

Sci. Adv.

138

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Electrically Tunable Slow Light Using Graphene Metamaterials

et al. 2018

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Teun-Teun Kim

Switching terahertz waves with gate-controlled active graphene metamaterials

Electrical access to critical coupling of circularly polarized waves in graphene chiral metamaterials

Electrically Tunable Slow Light Using Graphene Metamaterials

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