Spectral engineering with coupled microcavities: active control of resonant mode-splitting

Spectral engineering with coupled microcavities: active control of resonant mode-splitting

Optical mode-splitting is an efficient tool to shape and fine-tune the spectral response of resonant nanophotonic devices. The active control of mode-splitting, however, is either small or accompanied by undesired resonance-shifts, often much larger than the resonance splitting. We report a control...

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Veröffentlicht in:Optics letters 2015-07, Vol.40 (14), p.3332-3335
Hauptverfasser: Souza, Mario C M M, Rezende, Guilherme F M, Barea, Luis A M, von Zuben, Antonio A G, Wiederhecker, Gustavo S, Frateschi, Newton C
Format: Artikel
Sprache:eng
Schlagworte:
Active control
Coupled modes
Devices
Microcavities
Nanostructure
Resonators
Spectra
Splitting
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Zusammenfassung:Optical mode-splitting is an efficient tool to shape and fine-tune the spectral response of resonant nanophotonic devices. The active control of mode-splitting, however, is either small or accompanied by undesired resonance-shifts, often much larger than the resonance splitting. We report a control mechanism that enables reconfigurable and widely tunable mode splitting while efficiently mitigating undesired resonance shifts. This is achieved by actively controlling the excitation of counter-traveling modes in coupled resonators. The transition from a large splitting (80 GHz) to a single-notch resonance is demonstrated using low-power microheaters (35 mW). We show that the spurious resonance shift in our device is only limited by thermal crosstalk, and resonance-shift-free splitting control may be achieved.
ISSN:0146-9592
1539-4794
DOI:10.1364/OL.40.003332