论文信息 - Theoretical analysis of ultrafast InGaAs/GaAs MQW modulators and comparison to experimental devices

Theoretical analysis of ultrafast InGaAs/GaAs MQW modulators and comparison to experimental devices

A theoretical approach for the analysis of electrooptical InGaAs/GaAs Multiple Quantum Well (MQW) waveguide modulators is presented. A lossy Beam Propagation Method (BPM) is used to describe the optical propagation in lossy media and a quasi-TEM model is used for the "slow-wave" microwave field interacting with the optical beam. Both methods are combined together to form an effective CAD tool for the analysis and design of such electrooptical devices. Characteristic design parameters, such as the optical transmission and the relative modulation, are calculated and shown to be in excellent agreement with the experimental results, demonstrating the feasibility of the theoretical approach.

[1] D. Jäger,et al. InGaAs/GaAs multiple-quantum-well modulators and switches , 1993 .

[2] Shih-Yuan Wang,et al. High speed III-V electrooptic waveguide modulators at lambda -1.3 mu m , 1988 .

[3] Roberto Sorrentino,et al. An FD-BPM with adaptive mesh for longitudinally varying optical structures , 1995 .

[4] M. Feit,et al. Light propagation in graded-index optical fibers. , 1978, Applied optics.

[5] R. Walker,et al. High-speed electrooptic modulation in GaAs/GaAlAs waveguide devices , 1987 .

[6] V. M. Hietala,et al. Quasi-TEM analysis of slow-wave mode propagation on coplanar microstructure MIS transmission lines , 1987 .

[7] Youngchul Chung,et al. An assessment of finite difference beam propagation method , 1990 .