Theory of time-resolved photo-luminescence and carrier lifetime measurements in GaAs/GaInP heterostructures

G. Rupper; N. H. Kwong; R. Binder

doi:10.1117/12.846777

18 February 2010 Theory of time-resolved photo-luminescence and carrier lifetime measurements in GaAs/GaInP heterostructures

G. Rupper, N. H. Kwong, R. Binder

Author Affiliations +

Proceedings Volume 7614, Laser Refrigeration of Solids III; 76140D (2010) https://doi.org/10.1117/12.846777
Event: SPIE OPTO, 2010, San Francisco, California, United States

Abstract

Recently, interest in optical refrigeration of semiconductors, which is based on photo-luminescence up-conversion, has drawn extensive attention both theoretically and experimentally. Theoretical descriptions often treat spatially homogeneous semiconductors, because of their conceptual simplicity. In typical experiments, however, semiconductors are usually heterostructures designed to reduce non-radiative recombination at the sample's surface. In particular, GaAs/GaInP structures have been used in experiments. In these structures, the GaAs layers are usually unintentionally p-doped, while the surface layers of GaInP are n-doped. Recent measurements of the non-radiative recombiation lifetime yielded values in the desirable inverse microsecond regime, and it is believed that the non-radiative recombination processes occur mainly at the heterostructure interfaces and its surfaces. For this reason, it is important to know the spatial density distribution of the excited carriers. Furthermore, photo-luminescence and carrier lifetime measurements are not spatially resolved, and therefore it is desirable to have a theory that can simulate lifetime measurements using the spatially varying density profile as an input. We have developed such a theory, using the simplifying assumption of quasi-thermal equilibrium (at each time during the photo-luminescence decay process). Using this theory, we are able to relate measurable (i.e. spatially averaged) lifetime measurements to the underlying non-radiative decay processes that, in our simulations, occur predominantly at the GaAs/GaInP interface. From this, we find that spatial inhomogeneities in the carrier density, which are most pronounced at low optical excitation powers, can have appreciable effects on the interpretation of the lifetime measurements.

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G. Rupper, N. H. Kwong, and R. Binder "Theory of time-resolved photo-luminescence and carrier lifetime measurements in GaAs/GaInP heterostructures", Proc. SPIE 7614, Laser Refrigeration of Solids III, 76140D (18 February 2010); https://doi.org/10.1117/12.846777

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