“Small and Fast: femtosecond light-matter interactions at 0

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Presentation transcript:

“Small and Fast: femtosecond light-matter interactions at 0 “Small and Fast: femtosecond light-matter interactions at 0.1-nanometer” Wilson Ho 20th Wu Chien Shiung Science Camp, 2017, Lukang Real tip Tip image

Georges-Pierre Seurat Pointillism (n) a theory and technique of applying small strokes or dots of color to a surface so that from a distance, they blend together; also called Neoimpressionism or Divisionism 1859 - 1891 Dmin  / 2

Superresolution Microscopy

What is the limit of spatial resolution in light matter interaction? How to achieve this limit of spatial resolution?

Resolution of Optical Spectroscopy Field Enhancement W = (2DR)1/2

Length Scales in the STM Junction Diffraction limit: a few hundred nm Plasmon localization: a few nm Size of single molecules: a few Å ~ a few nm Confinement of tunneling electrons: < 1 Å

Diffraction Unlimited Resolution Detecting photon emission from the STM: e in,  out Coupling lasers into the STM:  in, e out

Single Molecule Fluorescence

Tunneling Electron Induced Light Emission slide number3 UHV chamber Collection Efficiency: 1%

Photon Emission From Molecules on Oxide Films

TIF – Ag vs. W Tips

Magnesium Porphine (MgP) Chlorophyll-a Chlorophyll-b The simplest porphyrin. Center of photosynthesis. Interesting optical and electrical properties.

Searching for Emitting MgP STM topography Photon image 37  37 nm

4/11 MgP Are Emitting STM topography Photon image 37  37 nm

Let’s Zoom in STM topography Photon image 37  37 nm

Symmetric Emitting MgP STM topography Photon image 6.8  6.8 nm

Let’s Zoom in STM topography Photon image 6.8  6.8 nm

Ring-Like Emission Pattern Weak emission in the center. Ring is the chromophore. 3.5  3.5 nm

Spatially Resolved Vibronic Fluorescence Slope = 47 meV (380 cm-1) Pyrrole ring tilt and rotation mode

Spatially Resolved Vibronic Fluorescence 