Substrate-enhanced Infrared Near-field Spectroscopy
Overview
Affiliations
We study the amplitude and phase signals detected in infrared scattering-type near field optical microscopy (s-SNOM) when probing a thin sample layer on a substrate. We theoretically describe this situation by solving the electromagnetic scattering of a dipole near a planar sample consisting of a substrate covered by thin layers. We perform calculations to describe the effect of both weakly (Si and SiO(2)) and strongly (Au) reflecting substrates on the spectral s-SNOM signal of a thin PMMA layer. We theoretically predict, and experimentally confirm an enhancement effect in the polymer vibrational spectrum when placed on strongly reflecting substrates. We also calculate the scattered fields for a resonant tip-substrate interaction, obtaining a dramatic enhancement of the signal amplitude and spectroscopic contrast of the sample layer, together with a change of the spectral line shape. The enhanced contrast opens the possibility to perform ultra-sensitive near field infrared spectroscopy of monolayers and biomolecules.
High-fidelity nano-FTIR spectroscopy by on-pixel normalization of signal harmonics.
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PMID: 37258606 PMC: 10232547. DOI: 10.1038/s42003-023-04943-7.
High sensitivity variable-temperature infrared nanoscopy of conducting oxide interfaces.
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PMID: 31235858 PMC: 6591405. DOI: 10.1038/s41467-019-10672-5.