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Nonadiabatic Nano-optical Tunneling of Photoelectrons in Plasmonic Near-Fields

Béla Lovász, Péter Sándor, G. Z. Kiss, Balázs Bánhegyi, Péter Rácz, Zsuzsanna Pápa, Judit Budai, Christine Prietl, Joachim R. Krenn, Péter Dombi

2022Nano Letters18 citationsDOIOpen Access PDF

Abstract

Nonadiabatic nano-optical electron tunneling in the transition region between multiphoton-induced emission and adiabatic tunnel emission is explored in the near-field of plasmonic nanostructures. For Keldysh γ values between ∼1.3 and ∼2.2, measured photoemission spectra show strong-field recollision driven by the nanoscale near-field. At the same time, the photoemission yield shows an intensity scaling with a constant nonlinearity, which is characteristic for multiphoton-induced emission. Our observations in this transition region were well reproduced with the numerical solution of Schrödinger's equation, mimicking the nanoscale geometry of the field. This way, we determined the boundaries and nature of nonadiabatic tunneling photoemission, building on a key advantage of a nanoplasmonic system, namely, that high-field-driven recollision events and their signature in the photoemission spectrum can be observed more efficiently due to significant nanoplasmonic field enhancement factors.

Topics & Concepts

PlasmonQuantum tunnellingPhotoelectric effectAdiabatic processPhysicsElectronNanoscopic scaleField (mathematics)Atomic physicsMolecular physicsCondensed matter physicsOptoelectronicsQuantum mechanicsPure mathematicsMathematicsPlasmonic and Surface Plasmon ResearchLaser-Matter Interactions and ApplicationsNear-Field Optical Microscopy
Nonadiabatic Nano-optical Tunneling of Photoelectrons in Plasmonic Near-Fields | Litcius