Tuning of the critical feedback level in 1.55-μm quantum dash semiconductor laser diodes

GRILLOT, Frédéric
Naderi, Nader,
Pochet, Mike
Lin, Chang-Yi
Besnard, Pascal
Lester, Luke,

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Publication date

December 2009

DOI

10.1049/iet-opt.2009.0037

Publisher

Institution of Engineering and Technology (IET)

Abstract

International audienceThe onset of the coherence collapse (CC) regime, which is incompatible with data transmission, is investigated both theoretically and experimentally in a 1.55-um InAs/InP quantum dash semiconductor laser. It is numerically shown that the filling from the excited state produces an additional term, which accelerates the route to chaos. This contribution can be seen as a perturbation that reduces the overall CC threshold

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Tuning of the critical feedback level in 1.55-μm quantum dash semiconductor laser diodes

Abstract

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Tuning of the critical feedback level in 1.55-μm quantum dash semiconductor laser diodes

Abstract

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