Off resonant Fano enhanced single molecule resolution imaging with a CW source
Rasim Volga Ovali, Taner Tarik Aytas, Ramazan Sahin, Mehmet Emre Tasgin
TL;DR
This paper demonstrates achieving approximately 1-nm resolution in apertureless SNOM by exploiting Fano interference with a CW source, enabling single-molecule imaging through a novel near-field hotspot.
Contribution
The study introduces a method to enhance resolution in a-SNOM using Fano interference at off-resonant conditions with a CW source, enabling single-molecule imaging.
Findings
Achieved ~1-nm resolution in a-SNOM imaging.
Utilized Fano interference to enhance near-field hotspots.
Validated results with three-dimensional Maxwell simulations.
Abstract
Apertureless scanning near-field optical microscopy (a-SNOM) is typically limited to ~10 nm resolution by the tip apex size. We demonstrate that ~1-nm resolution can be achieved under continuous-wave (CW) illumination by exploiting Fano path interference. A defect center that naturally forms at the apex of a metal-coated AFM tip acts as a quantum object and induces Fano interference, forcing a stronger but normally off-resonant plasmonic mode (597 nm) to operate effectively on resonance at the driving wavelength (520 nm). Because this interference occurs only beneath the defect, a ~1-nm-wide, strongly enhanced near-field hotspot is created. Using this off-resonant Fano-enhanced field, we achieve single-molecule-resolution imaging based on exact three-dimensional Maxwell simulations.
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Taxonomy
TopicsNear-Field Optical Microscopy · Plasmonic and Surface Plasmon Research · Gold and Silver Nanoparticles Synthesis and Applications