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Probing the optical near-field interaction of Mie nanoresonators with atomically thin semiconductors

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Version 2 2023-06-08, 12:59
Version 1 2023-01-10, 03:06
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posted on 2023-06-08, 12:59 authored by Ana Estrada-Real, Ioannis Paradisanos, Peter R. Wiecha, Jean-Marie Poumirol, Aurelien Cuche, Gonzague Agez, Delphine Lagarde, Xavier Marie, Vincent Larrey, Jonas Müller, Guilhem Larrieu, Vincent Paillard, Bernhard Urbaszek
Optical Mie resonators based on silicon nanostructures allow tuning of light-matter-interaction with advanced design concepts based on CMOS compatible nanofabrication. Optically active materials such as transition-metal dichalcogenide (TMD) monolayers can be placed in the near-field region of such Mie resonators. Here, we experimentally demonstrate and verify by numerical simulations coupling between a MoSe2 monolayer and the near-field of dielectric nanoresonators. Through a comparison of dark-field (DF) scattering spectroscopy and photoluminescence excitation experiments (PLE), we show that the MoSe2 absorption can be enhanced via the near-field of a nanoresonator. We demonstrate spectral tuning of the absorption via the geometry of individual Mie resonators. We show that we indeed access the optical near-field of the nanoresonators, by measuring a spectral shift between the typical near-field resonances in PLE compared to the far-field resonances in DF scattering. Our results prove that using MoSe2 as an active probe allows accessing the optical near-field above photonic nanostructures, without the requirement of highly complex near-field microscopy equipment.

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