Title :
Improved techniques for the measurement of phase error in waveguide based optical devices
Author :
Chen, Wei ; Chen, Yung-Jui ; Yan, Ming ; McGinnis, Brian ; Wu, Zhe
Author_Institution :
Comput. Sci. & Electr. Eng. Dept., Univ. of Maryland Baltimore County, MD, USA
fDate :
1/1/2003 12:00:00 AM
Abstract :
Phase-error measurement using an incoherent light source and information in the resulting interferograms is an effective technique for characterizing waveguide-based optical devices. We propose a new analysis scheme that utilizes Hilbert transformation along with an increased data sampling rate of the interferogram. The higher data sampling rate makes the measurement more noise tolerant and improves the accuracy of the resulting phase determination to 0.2°. This technique enables a "windowing" analysis method that is capable of testing waveguides with very small path length differences. We also present a new analysis tool for device characterization by creating a "phase trend" plot that detects different optical modes propagating within the waveguide.
Keywords :
Hilbert transforms; arrayed waveguide gratings; light interferometry; measurement errors; optical testing; Hilbert transformation; accuracy; arrayed waveguide grating; data sampling rate; device characterization; higher data sampling rate; incoherent light source; interferograms; optical modes; optical testing; phase determination; phase error measurement; phase trend; very small path length differences; waveguide based optical devices; waveguide-based optical devices; windowing analysis; Light sources; Noise measurement; Optical detectors; Optical devices; Optical noise; Optical waveguides; Phase measurement; Phase noise; Sampling methods; Testing;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2002.803060
