论文信息 - Theory of the soliton self-frequency shift.

Theory of the soliton self-frequency shift.

Raman effects cause a continuous downshift of the mean frequency of pulses propagating in optical fibers. For solitons in silica fibers, the effect varies roughly with the inverse fourth power of the pulse width. At 1.5-microm wavelength in a fiber with 15 psec/nm/km time-of-flight dispersion, a soliton of 250-fsec duration is predicted to shift by its own spectral width after about l00m of propagation. The theory agrees well with recent measurements.

J. Gordon | J P Gordon

[1] L. Mollenauer,et al. Soliton propagation in long fibers with periodically compensated loss , 1985, Annual Meeting Optical Society of America.

[2] Roger H. Stolen,et al. Development of the stimulated Raman spectrum in single-mode silica fibers , 1984 .

[3] A. Hasegawa,et al. Signal transmission by optical solitons in monomode fiber , 1981, Proceedings of the IEEE.

[4] R. Stolen,et al. Low-Frequency and Low-Temperature Raman Scattering in Silica Fibers , 1982 .

[5] L. Mollenauer,et al. Discovery of the soliton self-frequency shift. , 1986, Optics letters.