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Ultrafast tilting of the dispersion of a photonic crystal and adiabatic spectral compression of light pulses

We demonstrate, by theory and experiment, the ultrafast tilting of the dispersion curve of a photonic-crystal waveguide following the absorption of a femtosecond pump pulse. By shaping the pump-beam cross section with a nanometric shadow mask, different waveguide eigenmodes acquire different spatial overlap with the perturbing pump, leading to a local flattening of the dispersion by up to 11 %. We find that such partial mode perturbation can be used to adiabatically compress the spectrum of a light pulse traveling through the waveguide.

preprint2012arXivOpen access
Daryl M. BeggsThomas F. KraussL. KuipersTobias Kampfrath
physics.optics
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Open access4 authors1 topic
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Daryl M. BeggsThomas F. KraussL. KuipersTobias Kampfrath

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