Kreissl, J.J.KreisslBornholdt, C.C.BornholdtGärtner, T.T.GärtnerMörl, L.L.MörlPrzyrembel, G.G.PrzyrembelRehbein, W.W.Rehbein2022-03-042022-03-042011https://publica.fraunhofer.de/handle/publica/22629710.1109/JQE.2011.2153180An electroabsorption modulator (EAM) was integrated with a distributed feedback laser and a spot-size expander forming an electro-modulated laser (EML) device. The EMLs are based on the conventional InP/InGaAsP material system and are designed for flip-chip mounting. They rely on a buried heterostructure with Fe-doped blocking layers, and the EAM section is optically butt-joint-coupled. The performance of EMLs with two different EAM lengths is reported. 150 micrometer long EAM sections can be operated with an f3dB bandwidth of 25 GHz allowing an error-free large signal modulation at 25 Gb/s with a dynamic extinction ratio (ER) of 11 dB. With 100 micrometer long EAM sections, the f3dB bandwidth increases up to 33 GHz. Large signal modulation at 40 Gb/s is achieved with a dynamic ER of more than 8 dB. Transmission of 40 Gb/s over 2 km is demonstrated.en621journal article