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Quantum State Absorptions Coupled To Resonance Raman Spectroscopy Could Result In A General Explanation of TERS

Tip enhanced Raman scattering (TERS) amplifies the intensity of vibrational Raman scattering by employing the tip of a probe interacting, in ultra close proximity, with a surface. Although a general understanding of the TERS process is still to be fully elucidated, scanning tunneling microscopy (STM) feedback is often applied with success in TERS to keep a noble metal probe in intimate proximity with a noble metal substrate. Since such STM TERS is a common modality, the possible implications of plasmonic fields that may be induced by the tunneling process are investigated and reported. In addition, TERS of a 2D resonant molecular system, a MoS2 bilayer crystal and a 2D non-resonant, lipid molecular bilayer is compared. Data with multiple excitation wavelengths and surfaces for the resonant system in the near- (TERS) and far-field regimes are reported. An interpretation based on weak coupling interactions within the framework of conventional resonance Raman scattering can explain the observed TERS enhancements. The non-resonant molecular lipid system, on the other hand, requires strong coupling for a full understanding of the reported observations.

preprint2016arXivOpen access

Zachary D. Schultz John Parthenios Rimma Dekhter Dimitris Anestopoulos Spyridon Grammatikopoulos Kostantinos Papagelis James M. Marr David Lewis Costas Galiotis Dimtry Lev Aaron Lewis

cond-mat.mes-hall physics.optics

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Zachary D. Schultz John Parthenios Rimma Dekhter Dimitris Anestopoulos Spyridon Grammatikopoulos Kostantinos Papagelis James M. Marr David Lewis Costas Galiotis Dimtry Lev Aaron Lewis

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Quantum State Absorptions Coupled To Resonance Raman Spectroscopy Could Result In A General Explanation of TERS

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