Add time:08/09/2019         Source:sciencedirect.com

We focus on several aspects of our recent optimization of Beryllium-containing ZnSe-based laser diodes. By passivating the GaAs surface with a BeTe buffer, defect densities below 104 cm−2 can be achieved. Structures with BeZnSe–ZnSe-strained layer superlattices in the waveguide regions show T0 values of 366 K at room temperature and, consequently, laser operation up to 140°C due to an efficient electrical confinement by the superlattice waveguide. In order to circumvent the limitation concerning the band gap (<2.85 eV) of the p-type claddings, the p-type doping of BeMgZnSe/BeTe short period superlattices has been investigated. The insertion of BeTe fractional monolayers is shown to increase the p-type doping beyond the limits usually set by compensation in high band gap BeMgZnSe. Theoretical calculations indicate that an asymmetric design of the band gap of the cladding layers can reduce current overflow and also enable blue emission with the Beryllium-based material system.

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