Incoherent light, transmitted via multimode fibers, represents a potential carrier for information that is directly modulated on the light envelope. The amplitude and phase characteristics of the envelope (baseband) signal are affected by the fiber waveguide because of group delay differences among the modes. We report on a technique that determines the baseband frequency response of the fiber system by comparing the beat spectra of light from a free-running laser before and after transmission through the fiber. As an example, we describe the measurement of 30 m of cladded multimode fiber. The 3-dB bandwidth was 700 MHz, somewhat larger than predicted on the basis of the computed group velocity differences.
[1]
D. Gloge,et al.
Dispersion in weakly guiding fibers.
,
1971,
Applied optics.
[2]
P. Laybourn,et al.
Pulse propagation along glass fibres
,
1970
.
[3]
F. Kapron,et al.
Pulse transmission through a dielectric optical waveguide.
,
1971,
Applied optics.
[4]
S. Personick,et al.
Time dispersion in dielectric waveguides
,
1971
.
[5]
F. Kapron,et al.
RADIATION LOSSES IN GLASS OPTICAL WAVEGUIDES
,
1970
.
[6]
D. Payne,et al.
Pulse dispersion in glass fibres
,
1971
.
[7]
D. Gloge.
Weakly guiding fibers.
,
1971,
Applied optics.