Cross-sectional atomic force microscopy of ZnMgSSe- and BeMgZnSe-based laser diodes

Cross-sectional atomic force microscopy of ZnMgSSe- and BeMgZnSe-based laser diodes

Atomic force microscopy (AFM) of cleaved facets of ZnSe-based lasers with various active region designs is reported. Different AFM probe friction on the materials forming the laser structures are exploited for imaging their basic layers. Unlike ZnMgSSe-based lasers, the cleaved surface of cladding l...

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Veröffentlicht in:Applied physics letters 1999-10, Vol.75 (17), p.2626-2628
Hauptverfasser: Ankudinov, A. V., Titkov, A. N., Shubina, T. V., Ivanov, S. V., Kop’ev, P. S., Lugauer, H.-J., Reuscher, G., Keim, M., Waag, A., Landwehr, G.
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Sprache:eng
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Zusammenfassung:Atomic force microscopy (AFM) of cleaved facets of ZnSe-based lasers with various active region designs is reported. Different AFM probe friction on the materials forming the laser structures are exploited for imaging their basic layers. Unlike ZnMgSSe-based lasers, the cleaved surface of cladding layers in BeMgZnSe-based structures is atomically flat, which is attributed to hardening of the II–VI materials by Be incorporation. Nanometer-high steps and undulations are observed at the laser heterointerfaces on cleaved facets. The shape and height of such topographic singularities located in the vicinity of a (Zn,Cd)Se quantum well active region depend on the strain distribution in the laser waveguide.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.125099