Short Hermite-Gaussian optical pulse propagation in dense dispersion-compensated systems

Yan Xiao; Wenrui Xue; Zhonghao Li; Dachun Su; Guosheng Zhou

doi:10.1117/1.1599838

1 September 2003 Short Hermite-Gaussian optical pulse propagation in dense dispersion-compensated systems

Yan Xiao, Wenrui Xue, Zhonghao Li, Dachun Su, Guosheng Zhou

Optical Engineering, Vol. 42, Issue 9, (September 2003). https://doi.org/10.1117/1.1599838

The transmission properties of Hermite-Gaussian optical pulses in fiber are studied. A theoretical solution is obtained by the momentum method, and the result is compared with a numerical simulation. Moreover, short Hermite-Gaussian optical pulse transmission over 1440 km in a dense dispersion-managed link is investigated on a numerical simulation basis. It is demonstrated that the pulse can propagate stably in zero, positive, and negative net dispersion compensation systems. In our simulation, both the second dispersion and the third-order dispersion are compensated. It is found that a Hermite-Gaussian optical pulse can transmit stably with reasonably lower power.

©(2003) Society of Photo-Optical Instrumentation Engineers (SPIE)

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Yan Xiao, Wenrui Xue, Zhonghao Li, Dachun Su, and Guosheng Zhou "Short Hermite-Gaussian optical pulse propagation in dense dispersion-compensated systems," Optical Engineering 42(9), (1 September 2003). https://doi.org/10.1117/1.1599838

Published: 1 September 2003

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KEYWORDS

Solitons

Numerical simulations

Picosecond phenomena

Telecommunications

Optical amplifiers

Fiber amplifiers

Optical engineering

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