Taking into account the higher order dispersions of the complex propagation constant involving its loss term, the equation of a Gaussian pulse propagation is derived for a single-mode optical fiber, by which the pulse-peak intensity, the pulse-width, the pulse-delay time and the skewness can be readily estimated along the fiber length. Then, among various combinations of the dispersion profile between the loss and the phase terms including both normal and anomalous dispersions, two typical cases of the pulse-broadening and narrowing are numerically shown, in which possibility of the compression is especially discussed with the combination of the sharp anomalous absorption-band and the normal phase-dispersions.
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Heihachi SATO, Yuji AZUMAI, "Pulse Propagation in a Single-Mode Optical Fiber with Complex Higher Order Dispersions" in IEICE TRANSACTIONS on transactions,
vol. E72-E, no. 8, pp. 919-926, August 1989, doi: .
Abstract: Taking into account the higher order dispersions of the complex propagation constant involving its loss term, the equation of a Gaussian pulse propagation is derived for a single-mode optical fiber, by which the pulse-peak intensity, the pulse-width, the pulse-delay time and the skewness can be readily estimated along the fiber length. Then, among various combinations of the dispersion profile between the loss and the phase terms including both normal and anomalous dispersions, two typical cases of the pulse-broadening and narrowing are numerically shown, in which possibility of the compression is especially discussed with the combination of the sharp anomalous absorption-band and the normal phase-dispersions.
URL: https://global.ieice.org/en_transactions/transactions/10.1587/e72-e_8_919/_p
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@ARTICLE{e72-e_8_919,
author={Heihachi SATO, Yuji AZUMAI, },
journal={IEICE TRANSACTIONS on transactions},
title={Pulse Propagation in a Single-Mode Optical Fiber with Complex Higher Order Dispersions},
year={1989},
volume={E72-E},
number={8},
pages={919-926},
abstract={Taking into account the higher order dispersions of the complex propagation constant involving its loss term, the equation of a Gaussian pulse propagation is derived for a single-mode optical fiber, by which the pulse-peak intensity, the pulse-width, the pulse-delay time and the skewness can be readily estimated along the fiber length. Then, among various combinations of the dispersion profile between the loss and the phase terms including both normal and anomalous dispersions, two typical cases of the pulse-broadening and narrowing are numerically shown, in which possibility of the compression is especially discussed with the combination of the sharp anomalous absorption-band and the normal phase-dispersions.},
keywords={},
doi={},
ISSN={},
month={August},}
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TY - JOUR
TI - Pulse Propagation in a Single-Mode Optical Fiber with Complex Higher Order Dispersions
T2 - IEICE TRANSACTIONS on transactions
SP - 919
EP - 926
AU - Heihachi SATO
AU - Yuji AZUMAI
PY - 1989
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E72-E
IS - 8
JA - IEICE TRANSACTIONS on transactions
Y1 - August 1989
AB - Taking into account the higher order dispersions of the complex propagation constant involving its loss term, the equation of a Gaussian pulse propagation is derived for a single-mode optical fiber, by which the pulse-peak intensity, the pulse-width, the pulse-delay time and the skewness can be readily estimated along the fiber length. Then, among various combinations of the dispersion profile between the loss and the phase terms including both normal and anomalous dispersions, two typical cases of the pulse-broadening and narrowing are numerically shown, in which possibility of the compression is especially discussed with the combination of the sharp anomalous absorption-band and the normal phase-dispersions.
ER -