Manipulating phonon polaritons in low loss11B enriched hexagonal boron nitride with polarization control
- 9 March 2020
- journal article
- research article
- Published by Royal Society of Chemistry (RSC) in Nanoscale
- Vol. 12 (15), 8188-8193
- https://doi.org/10.1039/d0nr01067g
Abstract
Hexagonal boron nitride (hBN) supports two types of hyperbolic phonon polaritons (HPPs), whose properties of strong electromagnetic field confinement and low propagation loss have been proposed for various applications in nanophotonics. Conventionally, real-space imaging of HPPs by scattering-type scanning near-field optical microscopy (s-SNOM) with vertical polarization excitation contains both tip and edge launched polariton modes, which leads to hybrid interference fringes. In this work, we symmetrically study the tip and edge excited HPPs in both boron nitride with the natural distribution of boron isotopes (natural hBN) and 11B isotope-enriched boron nitride (99.2% 11B hBN). The intrinsic HPPs excited in 99.2% 11B hBN exhibit a lower damping rate and longer propagation length than that in natural hBN. We experimentally realize a tuning from tip-dominated to edge-dominated excited HPPs by rotating the polarization of incident light. The near-field electric field intensity (NEFI) of edge-excited HPPs Eedge and the angle β (between the hBN edge and the projective direction of the incident electric field on the hBN plane) present a sine function relationship as Eedge ∝ |sin β| under an s-polarized incident light. The NEFI of edge-excited HPPs in 99.2% 11B hBN shows a 10% enhancement compared to natural hBN under the same measurement conditions. Our findings demonstrate an effective approach to reducing phonon polariton damping and manipulating phonon polariton excitation in hBN, which are beneficial for developing HPPs-based nanophotonic applications.Funding Information
- National Basic Research Program of China (2016YFA0203500)
- National Natural Science Foundation of China (11874407)
- Chinese Academy of Sciences (XDB 30000000)
- National Science Foundation (CMMI 1538127)
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