William M.J. Green, Xiaoping Liu, et al.
CLEO 2008
We demonstrate optical modulation rates exceeding the conventional cavity linewidth limit using a silicon coupling modulated microring. Small-signal measurements show coupling modulation was free of the parasitic cavity linewidth limitations at rates at least 6× the cavity linewidth. Eye diagram measurements show coupling modulation achieved data rates >2× the rate attainable by conventional intracavity phase modulation. We propose to use DC-balanced encoding to mitigate the inter-symbol interference in coupling modulation. Analysis shows that coupling modulation can be more efficient than intracavity modulation for large output swings and high-Q resonators. Coupling modulation enables very high-Q resonant modulators to be simultaneously low-power and high-speed, features which are mutually incompatible in typical resonant modulators studied to date. © 2013 Optical Society of America.
William M.J. Green, Xiaoping Liu, et al.
CLEO 2008
Mackenzie A. Van Camp, Solomon Assefa, et al.
Optics Express
William M. J. Green, Fengnian Xia, et al.
SPIE Photonics West 2008
Gunther Roelkens, Utsav Dave, et al.
Optical Materials Express