2006
DOI: 10.1007/s11082-006-0045-2
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40 GHz Mode-Locked Semiconductor Lasers: Theory, Simulations and Experiment

Abstract: Optical and Quantum Electronics (2006) 38:495-512 © Springer 2006 40 GHz mode-locked semiconductor lasers: theory, simulations and experiment u w e b a n d e l o w 1, * , m i n d a u g a s r a d z i u n a s 1 , a n d r e i v l a d i m i r o v 1 , b e r n d hü t t l 2 and r o n a l d k a i s e r 2Abstract. We study both theoretically and experimentally typical operation regimes of 40 GHz monolithic mode-locked lasers. The underlying Traveling Wave Equation model reveals quantitative agreement for characteri… Show more

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Cited by 79 publications
(49 citation statements)
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“…The region of Q-switching modulated ML, i.e., the region with strong side bands in the range of a few gigahertz, is small compared to that observed with quantum well lasers. 3 Both regions are separated by a steplike change of the SBSR by more than 30 dB. In our experiments, we did not observe any dependence of the SBSR plot on the scanning direction of the bias parameters.…”
contrasting
confidence: 38%
“…The region of Q-switching modulated ML, i.e., the region with strong side bands in the range of a few gigahertz, is small compared to that observed with quantum well lasers. 3 Both regions are separated by a steplike change of the SBSR by more than 30 dB. In our experiments, we did not observe any dependence of the SBSR plot on the scanning direction of the bias parameters.…”
contrasting
confidence: 38%
“…The quasi-equilibrium Fermi levels are determined by the total carrier density populating the wells [26]. The plasma temperature of electrons and holes evolve according (17) with the carrier-phonon (c-p) scattering rate for electrons and holes, the equilibrium temperature, the total energy for electron and holes [26], and the free carrier absorption (FCA) cross-section. Finally, the dynamics of the total carrier density populating the wells is governed by (18) where is the injection current, the electronic charge, the volume of the active region in the gain section, and the bimolecular and Auger recombination rates, respectively.…”
Section: ) Amplifier Model (Soa)mentioning
confidence: 99%
“…However, it is not always immediate to apply the theoretical predictions into the design of a particular device due to many simplifying hypotheses involved in this type of models. On the other side, fully distributed time-domain models provide a suitable description of the mode-locking dynamics in monolithic [15]- [17] and external cavity [18] devices although, in many cases, the noise properties are unaddressed due to the extensive numerical simulations required. In this paper, we theoretically investigate the noise properties of external-cavity mode-locked semiconductor lasers (ECMLL) using a detailed fully distributed time-domain model.…”
Section: Introductionmentioning
confidence: 99%
“…There are the lumped-element models (Koumans and van Roijen 1996;Leegwater 1996) and the fully distributed time-domain models (Yu et al 1998). Another approach that is well developed is a travelling wave model (Zhang and Carroll 1992;Radziunas 2006;Bandelow et al 2006). Recently Heck et al (2006) presented a model with a lumped-element approach where the propagation of the pulse through the SOA and the SA were calculated using a distributed time-domain model.…”
mentioning
confidence: 99%