Title :
Experimental Demonstration of Dynamic Bandwidth Allocation Using a MEMS-Actuated Bandwidth-Tunable Microdisk Resonator Filter
Author :
Zhang, Bo ; Leuenberger, David ; Lee, Ming-Chang M. ; Willner, Alan E. ; Wu, Ming C.
Author_Institution :
Southern California Univ., Los Angeles
Abstract :
A novel bandwidth-tunable optical filter based on a microelectromechanical-system-actuated microdisk resonator is utilized for dynamic bandwidth allocation. The filter bandwidth can be dynamically adjusted by voltage tuning the gap spacing between the two waveguides and microdisk. Three key applications of dynamic bandwidth allocation are demonstrated experimentally. Matched optical filtering is achieved on 5-Gb/s nonreturn-to-zero (NRZ) signals with error-free ( 10-9 bit-error-rate) data transmission. Reconfigurable channel banding of three 2.5-Gb/s NRZ signals is demonstrated by either routing a single or a group of data channels. Wavelength demultiplexing of three channels under the worst-case scenario shows 14.5-dB suppression with error-free operation.
Keywords :
bandwidth allocation; demultiplexing; error statistics; micro-optics; micro-optomechanical devices; optical communication equipment; optical filters; wavelength division multiplexing; MEMS actuated filter; bandwidth tunable optical filter; bit error rate; bit rate 5 Gbit/s; data transmission; dynamic bandwidth allocation; gap spacing; matched optical filtering; microdisk resonator filter; microelectromechanical system; nonreturn-to-zero signals; reconfigurable channel banding; voltage tuning; wavelength demultiplexing; Bandwidth; Channel allocation; Optical filters; Optical resonators; Optical signal processing; Optical tuning; Optical waveguides; Resonator filters; Voltage; Waveguide discontinuities; Bandwidth-tunable filter; channel banding; dynamic bandwidth allocation; microresonator; optical microelectromechanical system (MEMS);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2007.903872
