Title :
Coherent optical frequency domain reflectometry using phase-decorrelated reflected and reference lightwaves
Author :
Tsuji, Kohji ; Shimizu, Kaoru ; Horiguchi, Tsuneo ; Koyamada, Yahei
Author_Institution :
NTT Access Network Syst. Labs., Ibaraki, Japan
fDate :
7/1/1997 12:00:00 AM
Abstract :
We report a new scheme for coherent optical frequency domain reflectometry (C-OFDR) where the coherence length of the lightwaves does not limit the measureable fiber length. In this scheme, we use the beat spectrum which results when we mix reflected and reference lightwaves whose phases are not correlated. We demonstrated this scheme using a narrow-linewidth-lightwave source and an external electro-optical phase modulator. We measured Rayleigh backscattering and Fresnel reflections from a 30-Ion optical fiber, and achieved a spatial resolution of 5 m for two neighboring Fresnel reflectors located at the far end of the fiber. We estimated the expected spatial resolution and single-way dynamic range for our new scheme and show that it is capable of measuring long optical fibers with high-spatial resolution
Keywords :
Rayleigh scattering; backscatter; coherence length; optical correlation; optical fibre testing; optical time-domain reflectometry; 30-Ion optical fiber; Fresnel reflections; Rayleigh backscattering; beat spectrum; coherence length; coherent optical frequency domain reflectometry; expected spatial resolution; external electro-optical phase modulator; high-spatial resolution; long optical fibers; measureable fiber length; narrow-linewidth-lightwave source; neighboring Fresnel reflectors; optical fibre testing; phase-decorrelated reflected lightwaves; reference lightwaves; reflected lightwave; single-way dynamic range; spatial resolution; Backscatter; Dynamic range; Frequency domain analysis; Frequency measurement; Fresnel reflection; Length measurement; Optical fibers; Phase modulation; Reflectometry; Spatial resolution;
Journal_Title :
Lightwave Technology, Journal of
