Title :
Microwave CAD circuit modeling of a traveling-wave electroabsorption modulator
Author :
Lewén, Robert ; Irmscher, Stefan ; Eriksson, Urban
Author_Institution :
Lab. of Photonics & Microwave Eng., R. Inst. of Technol., Kista, Sweden
fDate :
4/1/2003 12:00:00 AM
Abstract :
Conformal-mapping techniques are used to derive an effective and advanced calculation model for the microwave properties of a light-intensity traveling-wave electroabsorption modulator, resulting in a quasi-TEM computer-aided-design circuit model. For a given device geometry, the model provides the transmission-line (TML) parameters´ characteristic impedance and waveguide (WG) propagation constant. Closed-form expressions are derived for the reactive circuit elements. The calculation model includes both the effect of metal conduction loss, as well as losses due to induced currents in the semiconductor substrate. We treat both the buried heterostructure, as well as the ridge-mesa optical WG implementations. The model is validated with full-wave simulations and compared to measured TML parameters.
Keywords :
conformal mapping; coplanar waveguides; electro-optical modulation; electroabsorption; electronic design automation; equivalent circuits; losses; microwave photonics; modelling; optical communication equipment; skin effect; CPWs; buried heterostructure implementations; calculation model; characteristic impedance; closed-form expressions; computer-aided-design model; conformal-mapping techniques; coplanar waveguides; device geometry; full-wave simulations; induced currents; light-intensity electroabsorption modulator; metal conduction loss; microwave CAD circuit modeling; microwave properties; optical modulation; quasi-TEM CAD circuit model; reactive circuit elements; ridge-mesa optical implementations; semiconductor substrate; skin effect; substrate losses; transmission-line parameters; traveling-wave electroabsorption modulator; waveguide propagation constant; Geometry; Impedance; Microwave circuits; Microwave devices; Microwave theory and techniques; Optical losses; Optical waveguides; Semiconductor waveguides; Solid modeling; Transmission lines;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2003.809669
