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Free keywords:
ACOUSTIC PHONONS; OPTICAL-FIBERS; SCATTERING; GENERATION; LEVITATION;
GUIDANCE; PARTICLECrystallography; Optics; Photonic crystal fibres; nonlinear optics; laser tweezers;
optoacoustics; nanowires; microfluidics;
Abstract:
The microstructure in photonic crystal fibre permits low-loss guidance of light both in solid glass and in air. The resulting improved control over light-matter interactions is permitting studies of, for example, intense nonlinear phonon-photon interactions, efficient generation of broad-band supercontinuum light, precisely controlled propulsion and guidance of small particles, plasmonic effects in metallic nanowire arrays, and massively enhanced nonlinear gas-laser interactions.