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Low-threshold bistability of slow light in photonic-crystal waveguides

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Authors

Mingaleev, Sergei
Miroshnichenko, Andrey
Kivshar, Yuri

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Optical Society of America

Abstract

We analyze the resonant transmission of light through a photonic-crystal waveguide side coupled to a Kerr nonlinear cavity, and demonstrate how to design the structure geometry for achieving bistability and all-optical switching at ultralow powers in the slow-light regime. We show that the resonance quality factor in such structures scales inversely proportional to the group velocity of light at the resonant frequency and thus grows indefinitely in the slow-light regime. Accordingly, the power threshold required for all-optical switching in such structures scales as a square of the group velocity, rapidly vanishing in the slow-light regime.

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Citation

Optics Express 15.19 (2007): 12380-12385

Source

Optics Express

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