Near-field nano-spectroscopy of strong mode coupling in phonon-polaritonic crystals

Strongly coupled phonon polaritons in patterned polar dielectric nano-resonators give rise to the formation of hybridized energy states with intriguing properties. However, direct observation of mode coupling in these periodic nanostructures is still challenging for momentum-matching-required far-field spectroscopies. Here, we explore the near-field response of strong coupling between propagating and localized polariton modes sustained in SiC phonon polaritonic crystals (PhPCs) to reveal the evolution of Rabi splittings with the change of lattice constant in the near-field perspective. The near-field nano-spectra of PhPCs show distinct Rabi splitting near the forbidden bands of similar to 16 cm(-1) in the band structures. In particular, an exotic three-polariton-coupling effect is observed with three splitting peaks in the nano-spectra induced by the interaction between local monopolar modes in nano-pillars and zone-folded phonon polaritons. Furthermore, sharp dips indicating weak near-field scatterings appear in nano-spectra at the intrinsic frequencies of the monopolar modes with strong local-field enhancement, which are estimated to be bright scattering peaks intuitively. These results would inspire the dispersion engineering and characterization of coupled phononic nano-resonators for diverse nanophotonic applications. Published under an exclusive license by AIP Publishing.

Automated summary

This study investigates the strong coupling phenomenon in SiC phonon polaritonic crystals (PhPCs) and reveals the evolution of Rabi splitting with lattice constant change in the near-field perspective. The near-field spectra of PhPCs exhibit distinctive Rabi splitting and weak near-field scattering. These findings are significant for the design and application of coupled phononic nano-resonators.