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Analysis of 40Gb/s TDM-transmission over embedded standard fiber employing chirped fiber grating dispersion compensators

Analysis of 40Gb/s TDM-transmission over embedded standard fiber employing chirped fiber grating dispersion compensators
Analysis of 40Gb/s TDM-transmission over embedded standard fiber employing chirped fiber grating dispersion compensators
Nonreturn-to-zero (NRZ)- and return-to-zero (RZ)-transmission formats are investigated for 1.55µm 40 Gb/s fiber grating dispersion compensated standard fiber transmission. The RZ-format is shown to give a twofold increase in transmission distance compared with the conventional NRZ-format. In addition, a larger power margin is obtained at the expense of a reduced dispersion tolerance. System guidelines are proposed relating the pulse width, equalizer spacing, input power and maximum transmission distance. The results are compared with prior theoretical works at 40Gb/s using equalizer fiber and optical phase conjugation.
0733-8724
807-811
Ennser, K.
11450092-3298-425a-982a-fda14ee8264b
Laming, R.I.
c86f359b-9145-4148-bc7d-ae4f3d272ca2
Zervas, M.N.
1840a474-dd50-4a55-ab74-6f086aa3f701
Ennser, K.
11450092-3298-425a-982a-fda14ee8264b
Laming, R.I.
c86f359b-9145-4148-bc7d-ae4f3d272ca2
Zervas, M.N.
1840a474-dd50-4a55-ab74-6f086aa3f701

Ennser, K., Laming, R.I. and Zervas, M.N. (1998) Analysis of 40Gb/s TDM-transmission over embedded standard fiber employing chirped fiber grating dispersion compensators. IEEE Journal of Lightwave Technology, 16 (5), 807-811. (doi:10.1109/50.669008).

Record type: Article

Abstract

Nonreturn-to-zero (NRZ)- and return-to-zero (RZ)-transmission formats are investigated for 1.55µm 40 Gb/s fiber grating dispersion compensated standard fiber transmission. The RZ-format is shown to give a twofold increase in transmission distance compared with the conventional NRZ-format. In addition, a larger power margin is obtained at the expense of a reduced dispersion tolerance. System guidelines are proposed relating the pulse width, equalizer spacing, input power and maximum transmission distance. The results are compared with prior theoretical works at 40Gb/s using equalizer fiber and optical phase conjugation.

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Published date: 1998
Organisations: Optoelectronics Research Centre

Identifiers

Local EPrints ID: 77972
URI: https://eprints.soton.ac.uk/id/eprint/77972
ISSN: 0733-8724
PURE UUID: afc29625-4286-449c-b55e-e0f28f2a7982
ORCID for M.N. Zervas: ORCID iD orcid.org/0000-0002-0651-4059

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Date deposited: 11 Mar 2010
Last modified: 05 Nov 2019 02:06

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Contributors

Author: K. Ennser
Author: R.I. Laming
Author: M.N. Zervas ORCID iD

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