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Paper detail

Extremely confined gap plasmon modes: when nonlocality matters

Historically, the field of plasmonics has been relying on the framework of classical electrodynamics, with the local-response approximation of material response being applied even when dealing with nanoscale metallic structures. However, when approaching the atomic-scale confinement of the electromagnetic radiation, mesoscopic effects are anticipated to become observable, e.g., those associated with the nonlocal electrodynamic surface response of the electron gas. We investigate nonlocal effects in propagating gap surface plasmon modes in ultrathin metal--dielectric--metal planar waveguides, exploiting monocrystalline gold flakes separated by atomic-layer-deposited aluminum oxide. We use scanning near-field optical microscopy to directly access the near-field of such confined gap plasmon modes and measure their dispersion relation (via their complex-valued propagation constants). We compare our experimental findings with the predictions of the generalized nonlocal optical response theory to unveil signatures of nonlocal damping, which becomes appreciable for smaller dielectric gaps.

preprint2021arXivOpen access
Sergejs BoroviksZhan-Hong LinVladimir A. ZeninMario ZieglerAndrea DellithP. A. D. GonçalvesChristian WolffSergey I. BozhevolnyiJer-Shing HuangN. Asger Mortensen
cond-mat.mes-hallphysics.optics
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Sergejs BoroviksZhan-Hong LinVladimir A. ZeninMario ZieglerAndrea DellithP. A. D. GonçalvesChristian WolffSergey I. BozhevolnyiJer-Shing HuangN. Asger Mortensen

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