Soares, F.M.F.M.SoaresFontaine, N.K.N.K.FontaineScott, R.P.R.P.ScottBaek, J.H.J.H.BaekZhou, X.X.ZhouSu, T.T.SuCheung, S.S.CheungWang, Y.Y.WangJunesand, C.C.JunesandLourdudoss, S.S.LourdudossLiou, K.Y.K.Y.LiouHamm, R.A.R.A.HammWang, W.W.WangPatel, B.B.PatelGruezke, L.A.L.A.GruezkeTsang, W.T.W.T.TsangHeritage, J.P.J.P.HeritageYoo, S.J.B.S.J.B.Yoo2022-03-042022-03-042011https://publica.fraunhofer.de/handle/publica/22717010.1109/JPHOT.2011.21705582-s2.0-85008004974We demonstrate monolithic integration of a 100-channel arrayed-waveguide grating (AWG) with 10-GHz channel spacing and 100 optically controlled Michelson-interferometer-based phase and amplitude modulators. The high-resolution AWG showed better than -15-dB crosstalk, and the modulator extinction ratio was better than 20 dB with either electrical or optical modulation control. The twin-integrated devices comprise a 50-mm diameter InP wafer with 1200 independent optoelectronic components.en621journal article