Ring Resonators for Integrated Optics Applications
Michael Gad;
Abstract
Integrated ring resonators have attracted a considerable interest in optical communications because
of their small size and wide range of applicability. Here we consider several aspects of these devices,
beginning with a tunable hybrid ring resonators consisting of a silicon over insulator (SOI) ring
covered with a polymer layer in a variable electric field. Varying the field changes the polymer
refractive index and consequently the resonance condition of the cavity. This device offers a large
degree of optical confinement together with a high modulation speed. Subsequently, we design and
present fabrication results for a Wavelength Division Multiplexing (WDM) multiplexer/demultiplexer
formed from a series of ring resonators with two channels separated by50 GHz each that is predicted
to exhibit a free spectral range (FSR) of 100 GHz , signal dispersion less than 30 ps / nmand a
signal cross-talk less than 23 dB. Finally, we analyze the application of the coupled ring
waveguide circuit to rotation sensors based on the Sagnac phase shift. Here, however our analysis
indicates that a single ring, of the same area exhibits a higher degree of sensitivity to rotational
motion than a multiple ring circuit.
of their small size and wide range of applicability. Here we consider several aspects of these devices,
beginning with a tunable hybrid ring resonators consisting of a silicon over insulator (SOI) ring
covered with a polymer layer in a variable electric field. Varying the field changes the polymer
refractive index and consequently the resonance condition of the cavity. This device offers a large
degree of optical confinement together with a high modulation speed. Subsequently, we design and
present fabrication results for a Wavelength Division Multiplexing (WDM) multiplexer/demultiplexer
formed from a series of ring resonators with two channels separated by50 GHz each that is predicted
to exhibit a free spectral range (FSR) of 100 GHz , signal dispersion less than 30 ps / nmand a
signal cross-talk less than 23 dB. Finally, we analyze the application of the coupled ring
waveguide circuit to rotation sensors based on the Sagnac phase shift. Here, however our analysis
indicates that a single ring, of the same area exhibits a higher degree of sensitivity to rotational
motion than a multiple ring circuit.
Other data
| Title | Ring Resonators for Integrated Optics Applications | Authors | Michael Gad | Issue Date | 2011 |
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