Tunable nonlinear coherent perfect absorption with epsilon-near-zero plasmonic waveguides

Ying Li; Christos Argyropoulos

doi:10.1364/OL.43.001806

Optics Letters
Vol. 43,
Issue 8,
pp. 1806-1809
(2018)
•https://doi.org/10.1364/OL.43.001806

Tunable nonlinear coherent perfect absorption with epsilon-near-zero plasmonic waveguides

Ying Li and Christos Argyropoulos

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Ying Li and Christos Argyropoulos, "Tunable nonlinear coherent perfect absorption with epsilon-near-zero plasmonic waveguides," Opt. Lett. 43, 1806-1809 (2018)

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About this Article
History
- Original Manuscript: February 9, 2018
- Revised Manuscript: March 13, 2018
- Manuscript Accepted: March 18, 2018
- Published: April 11, 2018

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Abstract

We propose a scheme to realize nonlinear coherent perfect absorption (CPA) at the nanoscale using epsilon-near-zero (ENZ) plasmonic waveguides. The general conditions to achieve CPA in a linear ENZ plasmonic waveguide are analyzed and presented. The proposed ENZ waveguides support an effective ENZ response at their cutoff frequency, where the CPA effect occurs under the illumination of two counterpropagating plane waves with equal amplitudes and appropriate phase distributions. In addition, the strong and uniform field enhancement inside the nanochannels of the waveguides at the ENZ resonance can efficiently boost Kerr nonlinearities, resulting in a new all-optical switching intensity-dependent CPA phenomenon that can be tunable with ultrafast speed. The proposed free-standing ENZ structures combine third-order nonlinear functionality with standing wave CPA interference effects in a nanoscale plasmonic configuration, thus leading to a novel degree of tunable light-matter interactions achieved in subwavelength regions. Our findings provide a new platform to efficiently excite nonlinear phenomena at the nanoscale and design tunable coherent perfect absorbers.

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