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How exact are simplified scalar approaches to optical fields in oxide-confined stripe-geometry diode lasers?
Authors:T. Czyszanowski  W. Nakwaski
Affiliation:(1) Laboratory of Computer Physics, Institute of Physics, Technical University of Łódź, 219 Wólczańska Str., 93-005 Łódź, Poland;(2) CFD Research Corporation, 215 Wynn Drive Huntsville, Alabama, 35805, USA
Abstract:Optical model, scalar or vectorial one, describing behaviour of an optical field within a diode-laser cavity, is one of the most important parts of modelling of a diode-laser operation. As compared to more accurate vectorial optical approaches, scalar ones are known to be less exact but simultaneously they need much less computation time. Besides, they have been sometimes found to be surprisingly exact even beyond their confirmed range of validity. Therefore, in this paper, real validity limits of their application have been determined by comparing their simplified results with more exact results obtained with the aid of vectorial models. The analysis comprises a comparison of an application of the most popular scalar approach to optical properties of diode lasers, i.e., the effective index method, and the vectorial method of lines for the standard 1.3-μm GaAs-based stripe-geometry diode laser. The scalar model has been found to be quite exact in the case of a determination of the effective refractive index, i.e., the wavelength of emitted radiation, whereas its exactness in the lasing threshold analysis is much worse, especially in the case of higher-order modes. Our analysis is concluded with a determination of the regions where both models give satisfactorily close results.
Keywords:oxide-confined stripe-geometry diode lasers  scalar and vectorial optical models  simulation of a diode-laser operation
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