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Optical nanoimaging of highly-confined phonon polaritons in atomically-thin nanoribbons of α-MoO. | LitMetric

AI Article Synopsis

  • Phonon polaritons (PhPs) are modes that mix light with lattice vibrations in polar insulators, allowing for advanced control of light at the nanoscale.
  • Recent research has focused on manipulating in-plane anisotropic PhPs, pushing the limits of their confinement and directional control in very thin materials.
  • This study demonstrates the optical nanoimaging of PhPs in ultra-thin α-MoO nanoribbons, showing they can support highly confined anisotropic PhPs, with tunable interference patterns based on the wavelength and structure, which could lead to new applications in nanophotonics and sensing.

Article Abstract

Phonon polaritons (PhPs), collective modes hybridizing photons with lattice vibrations in polar insulators, enable nanoscale control of light. In recent years, the exploration of in-plane anisotropic PhPs has yielded new levels of confinement and directional manipulation of nano-light. However, the investigation of in-plane anisotropic PhPs at the atomic layer limit is still elusive. Here, we report the optical nanoimaging of highly-confined phonon polaritons in atomically-thin nanoribbons of α-MoO (5 atomic layers). We show that narrow α-MoO nanoribbons as thin as a few atomic layers can support anisotropic PhPs modes with a high confinement ratio (∼133 times smaller wavelength than that of light). The anisotropic PhPs interference fringe patterns in atomic layers are tunable depending on the PhP wavelength via changing the illumination frequency. Moreover, spatial control over the PhPs interference patterns is also achieved by varying the nanostructures' shape or nanoribbon width of atomically-thin α-MoO. Our work may serve as an empirical reference point for other anisotropic PhPs that approach the thickness limit and pave the way for applications such as atomically integrated nano-photonics and sensing.

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Source
http://dx.doi.org/10.1364/OE.492369DOI Listing

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