Title :
Over Coupled Ring Resonator-Based Add/Drop Filters
Author :
Mansoor, Riyadh Dakhil ; Sasse, Hugh ; Al Asadi, Mohammed ; Ison, Stephen J. ; Duffy, Alistair P.
Author_Institution :
De Montfort Univ., Leicester, UK
Abstract :
The performance of add/drop filters based on over coupled ring resonators is analyzed and simulated. Over coupling improves the performance of the filters by providing a wider bandwidth over which high crosstalk suppression is achieved. Interband and intraband crosstalk associated with wavelength division multiplexing in optical filters are examined as a function of coupling coefficients. The simulation results show that, in over coupled double ring resonators, the crosstalk suppression bandwidth is increased in comparison with that of critically coupled ring resonators. Increased bandwidth will allow such filters to be used for higher data rate signals, and moreover, for different modulation techniques (such as return to zero RZ and nonreturn to zero NRZ).
Keywords :
optical communication equipment; optical couplers; optical crosstalk; optical filters; optical modulation; optical resonators; wavelength division multiplexing; coupling coefficients; critically coupled ring resonators; crosstalk suppression; interband crosstalk; intraband crosstalk; nonreturn-to-zero modulation; over coupled ring resonator-based add/drop filters; over coupling; return-to-zero modulation; wavelength division multiplexing; Bandwidth; Couplings; Crosstalk; Optical fiber filters; Optical ring resonators; Optical signal processing; Resonator filters; Add/drop filter; Mason??s rule; crosstalk; ring resonator; wavelength Division multiplexing WDM;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2014.2329645
