Infrared Near-Field Spectroscopy of Gold Nanotriangle Fabry-Pérot Resonances

Abstract: In this work, we characterize the near-field response of individual gold nanotriangles over a broad, visible-to-infrared, spectral region (200−1500 meV) using high-resolution electron energy-loss spectroscopy (EELS) performed inside of a scanning transmission electron microscope (STEM). We begin by experimentally imaging the spatial and spectral extent of each nanotriangle's plasmonic Fabry-Peŕot modes and measuring the evolution of their resonance energies with increasing edge length; thereby providing detail… Show more

“…Toward this end, harnessing near-field effects to improve the conversion efficiencies of photovoltaics and thermophotovoltaics is an exciting approach vector . Infrared (IR) active photonic nanostructures in particular present an exciting platform to localize and direct low-grade heat both spatially and spectrally as IR resonances are easily accessible via thermal excitation. − …”

Localizing Low-Grade Heat Using Hybrid Photonic-Phononic Materials

“…Toward this end, harnessing near-field effects to improve the conversion efficiencies of photovoltaics and thermophotovoltaics is an exciting approach vector . Infrared (IR) active photonic nanostructures in particular present an exciting platform to localize and direct low-grade heat both spatially and spectrally as IR resonances are easily accessible via thermal excitation. − …”

Localizing Low-Grade Heat Using Hybrid Photonic-Phononic Materials