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Ultrafast rerouting of light via slow modes in a nanophotonic directional coupler

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Authors

Kampfrath, Tobias
Beggs, D. M.
White, Thomas
Burresi, M.
van Oosten, D.
Krauss, T. F.
Kuipers, L.

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American Institute of Physics

Abstract

We demonstrate that two coupled photonic-crystal waveguides can route two subsequently arriving light pulses to different output ports even though the pulses are only 3 ps apart. This rerouting of light is due to an ultrafast shift in the transmittance spectrum triggered by the generation of electrons and holes in the Si base material by a femtosecond laser pulse. The use of slow-light modes allows for a coupler length of only 5.2 μm. Since these modes are not directly involved, the 3 ps dead time is solely determined by the duration of the input pulse rather than its transit time through the device.

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Applied Physics Letters

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