The processing of optical signals in the optical domain is an important
issue resulting from the desire to take advantage of the full bandwidth
of the optical fiber. In this paper, we present detailed investigations
on a device, which utilizes a semiconductor laser amplifier in a
loop mirror configuration (SLALOM). Different modes of operation
are reported like nonlinear single pulse switching and two-pulse
switching at different operation speeds (1-100 Gb/s). Furthermore,
a number of applications of the SLALOM in photonic systems, like
pulse shaping, decoding, retiming and time-division demultiplexing,
are presented. In addition, the SLALOM can be used for an estimate
of the linewidth enhancement factor ? and the carrier lifetime ?
e in an SLA
%0 Journal Article
%1 Eiselt1995
%A Eiselt, M.
%A Pieper, W.
%A Weber, H.G.
%D 1995
%J Lightwave Technology, Journal of
%K 100 Gbit/s, SLALOM, amplifier, bandwidth, breadth, carrier communication decoding, demultiplexing, division domain, electro-optical enhancement equipment, factor, fiber, full information laser lasers, lifetime, line linewidth loop mirror, mirrors, modes, multiplexing1 nonlinear operation optical photonic processing, pulse semiconductor signal single spectral speeds, switches, switching switching, systems, time time-division to two-pulse
%N 10
%P 2099-2112
%R 10.1109/50.469721
%T SLALOM: semiconductor laser amplifier in a loop mirror
%V 13
%X The processing of optical signals in the optical domain is an important
issue resulting from the desire to take advantage of the full bandwidth
of the optical fiber. In this paper, we present detailed investigations
on a device, which utilizes a semiconductor laser amplifier in a
loop mirror configuration (SLALOM). Different modes of operation
are reported like nonlinear single pulse switching and two-pulse
switching at different operation speeds (1-100 Gb/s). Furthermore,
a number of applications of the SLALOM in photonic systems, like
pulse shaping, decoding, retiming and time-division demultiplexing,
are presented. In addition, the SLALOM can be used for an estimate
of the linewidth enhancement factor ? and the carrier lifetime ?
e in an SLA
@article{Eiselt1995,
abstract = {The processing of optical signals in the optical domain is an important
issue resulting from the desire to take advantage of the full bandwidth
of the optical fiber. In this paper, we present detailed investigations
on a device, which utilizes a semiconductor laser amplifier in a
loop mirror configuration (SLALOM). Different modes of operation
are reported like nonlinear single pulse switching and two-pulse
switching at different operation speeds (1-100 Gb/s). Furthermore,
a number of applications of the SLALOM in photonic systems, like
pulse shaping, decoding, retiming and time-division demultiplexing,
are presented. In addition, the SLALOM can be used for an estimate
of the linewidth enhancement factor ? and the carrier lifetime ?
e in an SLA},
added-at = {2009-11-19T14:40:48.000+0100},
author = {Eiselt, M. and Pieper, W. and Weber, H.G.},
biburl = {https://www.bibsonomy.org/bibtex/25eb0742fcdc06ac3f74107cf9d5ec9bd/photonics},
doi = {10.1109/50.469721},
file = {Eiselt1995.pdf:Eiselt1995.pdf:PDF},
interhash = {d0fd22d5fa0634132bce66159d1ba7d0},
intrahash = {5eb0742fcdc06ac3f74107cf9d5ec9bd},
issn = {0733-8724},
journal = {Lightwave Technology, Journal of},
keywords = {100 Gbit/s, SLALOM, amplifier, bandwidth, breadth, carrier communication decoding, demultiplexing, division domain, electro-optical enhancement equipment, factor, fiber, full information laser lasers, lifetime, line linewidth loop mirror, mirrors, modes, multiplexing1 nonlinear operation optical photonic processing, pulse semiconductor signal single spectral speeds, switches, switching switching, systems, time time-division to two-pulse},
month = Oct,
number = 10,
owner = {gianluca},
pages = {2099-2112},
timestamp = {2009-11-19T14:40:54.000+0100},
title = {SLALOM: semiconductor laser amplifier in a loop mirror},
volume = 13,
year = 1995
}