Canalization acoustic phonon polaritons in metal-MoO ₃ -metal sandwiched structures for nano-light guiding and manipulation Article Swipe

View

Related Concepts

Polariton Materials science Phonon Anisotropy Molybdenum trioxide Metal Optics Coupling (piping) Condensed matter physics Optoelectronics Molybdenum Composite material Physics Metallurgy

Qizhi Yan , Runkun Chen , Zhu Yuan , Peining Li , Xinliang Zhang ·

YOU? · · 2021 · Open Access · · DOI: https://doi.org/10.1088/2040-8986/ac4319 · OA: W3199620286

We theoretically propose and study in-plane anisotropic acoustic phonon polaritons (APhPs) based on a layered structure consisting of a monolayer (or few layers) α -phase molybdenum trioxide ( α -MoO 3 ) sandwiched between two metal layers. We find that the APhPs in the proposed sandwiched structures are a canalization (highly directional) electromagnetic mode propagating along with the layers and at the same time exhibit extreme electromagnetic-field confinement surpassing any other type of phonon-polariton modes. When a double layer of α -MoO 3 is sandwiched by two Au layers, twisting the two α -MoO 3 layers can adjust the interlayer polaritonic coupling and thus manipulate the in-plane propagation of the highly confined APhPs. Our results illustrate that the metal-MoO 3 -metal sandwiched structures are a promising platform for light guiding and manipulation at ultimate scale.