Build-up and burst-mode of an O-band RSOA-based self-seeded transmitter. Brunero, M., Parolari, P., Marazzi, L., Brenot, R., & Martinelli, M. In IET Conference Publications, volume 2015, 2015. doi abstract bibtex 1 download In this contribution we performed the initial experimental evaluation of an RSOA-based self-seeded transmitter operating in burst-mode at 2.5 Gb/s. We identified, during the cavity build-up, different evolution of the optical power, which reaches steady-state faster than the spectrum. The time required to the optical power to reach the steady state depends on the total cavity losses. BER curves explore both initial and full-regime roundtrips to determine the effective "turn-on" time of the transmitter.
@inproceedings{
title = {Build-up and burst-mode of an O-band RSOA-based self-seeded transmitter},
type = {inproceedings},
year = {2015},
volume = {2015},
issue = {CP667},
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abstract = {In this contribution we performed the initial experimental evaluation of an RSOA-based self-seeded transmitter operating in burst-mode at 2.5 Gb/s. We identified, during the cavity build-up, different evolution of the optical power, which reaches steady-state faster than the spectrum. The time required to the optical power to reach the steady state depends on the total cavity losses. BER curves explore both initial and full-regime roundtrips to determine the effective "turn-on" time of the transmitter.},
bibtype = {inproceedings},
author = {Brunero, M. and Parolari, P. and Marazzi, L. and Brenot, R. and Martinelli, M.},
doi = {10.1049/cp.2015.0117},
booktitle = {IET Conference Publications}
}
Downloads: 1
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