Phase measurements on self-assembled three-dimensional photonic crystals show that the group velocity of light can flip from small positive (slow) to negative (superluminal) values in samples of a few µm size. This phenomenon takes place in a narrow spectral range around the second-order stop band and follows from coupling to weakly dispersive photonic bands associated with multiple Bragg diffraction. The observations are well accounted for by theoretical calculations of the phase delay and of photonic states in the finite-sized systems.

SLOW TO SUPERLUMINAL LIGHT WAVES IN THIN 3D PHOTONIC CRYSTALS

GALLI, MATTEO;BALESTRERI, ALESSANDRA;PATRINI, MADDALENA;ANDREANI, LUCIO;
2007-01-01

Abstract

Phase measurements on self-assembled three-dimensional photonic crystals show that the group velocity of light can flip from small positive (slow) to negative (superluminal) values in samples of a few µm size. This phenomenon takes place in a narrow spectral range around the second-order stop band and follows from coupling to weakly dispersive photonic bands associated with multiple Bragg diffraction. The observations are well accounted for by theoretical calculations of the phase delay and of photonic states in the finite-sized systems.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11571/106389
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