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All optical reconfiguration of optomechanical filters

Author

Listed:
  • Parag B. Deotare

    (School of Engineering and Applied Sciences, Harvard University)

  • Irfan Bulu

    (School of Engineering and Applied Sciences, Harvard University)

  • Ian W. Frank

    (School of Engineering and Applied Sciences, Harvard University)

  • Qimin Quan

    (School of Engineering and Applied Sciences, Harvard University)

  • Yinan Zhang

    (School of Engineering and Applied Sciences, Harvard University)

  • Rob Ilic

    (Cornell University)

  • Marko Loncar

    (School of Engineering and Applied Sciences, Harvard University)

Abstract

Reconfigurable optical filters are of great importance for applications in optical communication and information processing. Of particular interest are tuning techniques that take advantage of mechanical deformation of the devices, as they offer wider tuning range. Here we demonstrate reconfiguration of coupled photonic crystal nanobeam cavities by using optical gradient force induced mechanical actuation. Propagating waveguide modes that exist over a wide wavelength range are used to actuate the structures and control the resonance of localized cavity modes. Using this all-optical approach, more than 18 linewidths of tuning range is demonstrated. Using an on-chip temperature self-referencing method, we determine that 20% of the total tuning was due to optomechanical reconfiguration and the rest due to thermo-optic effects. By operating the device at frequencies higher than the thermal cutoff, we show high-speed operation dominated by just optomechanical effects. Independent control of mechanical and optical resonances of our structures is also demonstrated.

Suggested Citation

  • Parag B. Deotare & Irfan Bulu & Ian W. Frank & Qimin Quan & Yinan Zhang & Rob Ilic & Marko Loncar, 2012. "All optical reconfiguration of optomechanical filters," Nature Communications, Nature, vol. 3(1), pages 1-8, January.
    • Handle: RePEc:nat:natcom:v:3:y:2012:i:1:d:10.1038_ncomms1830
    DOI: 10.1038/ncomms1830
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