The authors show that the stabilisation of the soliton position due to the combined action of third-order dispersion and bandwidth-limited amplification, reported recently (Kodama et al., Opt.Lett., 1994, 19, p.165), may be reasonably described by using a perturbation approach.
References
-
-
1)
-
C. Desem ,
P.L. Chu ,
J.R. Taylor
.
(1992)
Soliton-soliton interactions, Optical solitons - Theory and experiment.
-
2)
-
V.V. Afanasjev
.
Interpretation of the effect of reduction of soliton interaction by bandwidth-limitedamplification.
Opt. Lett.
,
790 -
792
-
3)
-
Y. Kodama ,
M. Romagnoli ,
S. Wabnitz ,
M. Midrio
.
Role of third-order dispersion on soliton instabilities and interactionsin optical fibres.
Opt. Lett.
,
165 -
167
-
4)
-
Y. Kodama ,
M. Romagnoli ,
S. Wabnitz
.
Soliton stability and interactions in fibre lasers.
Electron. Lett.
,
1981 -
1982
-
5)
-
I.M. Uzunov ,
M. Gölles ,
L. Leine ,
F. Lederer
.
Soliton interaction in the presence of bandwidth limited amplification.
Opt. Commun.
-
6)
-
J.N. Elgin
.
Soliton propagation in an optical fiber with third-order dispersion.
Opt. Lett.
,
1409 -
1410
-
7)
-
Hasegawa, A., Yano, T., Kodama, Y.: `Separation of signal from noise in soliton transmission systems', Nonlinear guided-wave phenomena technical digest, 1993, Optical Society of America, Washington, D.C., p. 174–176.
-
8)
-
V.I. Karpman ,
V.V. Solov'ev
.
A perturbational approach to the two-soliton systems.
Physica3D
,
487 -
512
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