Sulikhah, SitiSitiSulikhahLee, San LiangSan LiangLeeHEN-WAI TSAO2023-11-082023-11-082022-01-019789897585548https://scholars.lib.ntu.edu.tw/handle/123456789/636998High-speed electro-absorption modulated lasers (EMLs) with three DFB laser structures (uniform grating (UG), asymmetric quarter-wave-shifted (QWS), and partially corrugated grating (PCG)) are investigated here under 56-Gb/s NRZ signal modulation. It is known that the former UG-EML suffers from performance degradation due to the residual facet reflection (RFR) and facet phase fluctuation. PCG-EML with 300-µm long laser section, 175-µm long grating section, 100-µm long modulator section, and 10-3 front-facet reflectivity can produce about ~83.8% dynamic single-mode yield (SMY), improved average Q-value, and reduced low-frequency drop (LFD) in the modulation response. By choosing the optimal grating length for the PCG-DFB and applying an asymmetric QWS-DFB, the EMLs can maintain good static- and dynamic performances over a wide range of the linear gain coefficients.Electro-absorption Modulator | Optical Interconnect | Partial Grating | Quarter-Wave-Shifted | Uniform Gratingconference paper10.5220/00109966000031212-s2.0-85173976302https://api.elsevier.com/content/abstract/scopus_id/85173976302