A nanophotonic-enhanced SHG platform with a new overlap-integral formalism enables quantitative probing of light-driven interfacial dynamics, showing electrolyte-dependent spectral shifts and intensity-dependent susceptibility changes at silicon-oxide-electrolyte interfaces.
Tsoulos, and Giulia Tagliabue
2 Pith papers cite this work. Polarity classification is still indexing.
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2025 2verdicts
UNVERDICTED 2representative citing papers
Amorphous silicon metasurfaces enable photo-thermally tunable photon-pair generation through SFWM, achieving rates above 3.8 kHz with high purity and deviations from quadratic power scaling due to heating-induced resonance shifts.
citing papers explorer
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Revealing Light-Driven Dynamics at Nanostructured Solid-Liquid Interfaces with In-Situ SHG
A nanophotonic-enhanced SHG platform with a new overlap-integral formalism enables quantitative probing of light-driven interfacial dynamics, showing electrolyte-dependent spectral shifts and intensity-dependent susceptibility changes at silicon-oxide-electrolyte interfaces.
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Photo-Thermally Tunable Photon-Pair Generation in Dielectric Metasurfaces
Amorphous silicon metasurfaces enable photo-thermally tunable photon-pair generation through SFWM, achieving rates above 3.8 kHz with high purity and deviations from quadratic power scaling due to heating-induced resonance shifts.