Theoretical and experimental analysis of radiative recombination lifetimes in nonpolar InGaN/GaN quantum dots
Physica Status Solidi (B): Basic Research
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Kanta Patra, S., Wang, T., Puchtler, T., Zhu, T., Oliver, R., Taylor, R., & Schulz, S. (2017). Theoretical and experimental analysis of radiative recombination lifetimes in nonpolar InGaN/GaN quantum dots. Physica Status Solidi (B): Basic Research, 254 (8)https://doi.org/10.1002/pssb.201600675
We present here a combined experimental and theoretical analysis of the radiative recombination lifetime in a-plane (11math formula0) InGaN/GaN quantum dots. The structures have been grown by modified droplet epitaxy and time-resolved photoluminescence measurements have been performed to gain insight into the radiative lifetimes of these structures. This analysis is complemented by multi-band math formula calculations. To account for excitonic effects, the math formula theory is coupled with self-consistent Hartree calculations. Special attention is paid to the impact of the quantum dot size on the results. Our calculations show that the residual built-in fields in these nonpolar structures are compensated by the attractive Coulomb interaction, leading to the situation that the oscillator strength is almost unaffected by changes in the quantum dot size. Furthermore, our theoretical studies reveal that the radiative lifetimes are one order magnitude lower than values for c-plane systems of identical size and shape. Our theoretical findings are consistent with experimental results. Also, the calculated lifetimes are comparable in magnitude to the measured values. The majority of the measured dots produce lifetime values of 250–300 ps, highlighting the potential of these nanostructures for future high-speed single-photon emitters.
charge carrier lifetimes, GaN, InGaN, nonpolar surfaces, quantum dots, radiative recombination
This work was supported by Science Foundation Ireland (project number 13/SIRG/2210) and Engineering and Physical Sciences Research Council (EPSRC) UK (Grants EP/M012379/1 and EP/M011682/1).
External DOI: https://doi.org/10.1002/pssb.201600675
This record's URL: https://www.repository.cam.ac.uk/handle/1810/266526