Polaritonic Probe of an Emergent 2D Dipole Interface.
Daniel J RizzoSheng MengBjarke S JessenFrancesco L RutaMatthew CothrineJiaqiang YanDavid G MandrusStephen E NaglerTakashi TaniguchiKenji WatanabeMichael M FoglerAbhay N PasupathyAndrew J MillisAngel RubioJames C HoneCory R DeanD N BasovPublished in: Nano letters (2023)
The use of work-function-mediated charge transfer has recently emerged as a reliable route toward nanoscale electrostatic control of individual atomic layers. Using α-RuCl 3 as a 2D electron acceptor, we are able to induce emergent nano-optical behavior in hexagonal boron nitride ( h BN) that arises due to interlayer charge polarization. Using scattering-type scanning near-field optical microscopy (s-SNOM), we find that a thin layer of α-RuCl 3 adjacent to an h BN slab reduces the propagation length of h BN phonon polaritons (PhPs) in significant excess of what can be attributed to intrinsic optical losses. Concomitant nano-optical spectroscopy experiments reveal a novel resonance that aligns energetically with the region of excess PhP losses. These experimental observations are elucidated by first-principles density-functional theory and near-field model calculations, which show that the formation of a large interfacial dipole suppresses out-of-plane PhP propagation. Our results demonstrate the potential utility of charge-transfer heterostructures for tailoring optoelectronic properties of 2D insulators.