Abstract
Carrier multiplication is demonstrated in a solid-state dispersion of germanium nanocrystals in a silicon-dioxide matrix. This is performed by comparing ultrafast photo-induced absorption transients at different pump photon energies below and above the threshold energy for this process. The average germanium nanocrystal size is approximately 5-6 nm, as inferred from photoluminescence and Raman spectra. A carrier multiplication efficiency of approximately 190% is measured for photo-excitation at 2.8 times the optical bandgap of germanium nanocrystals, deduced from their photoluminescence spectra.
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Saeed, S., De Weerd, C., Stallinga, P., Spoor, F. C., Houtepen, A. J., Siebbeles, L. D. A., & Gregorkiewicz, T. (2015). Carrier multiplication in germanium nanocrystals. Light: Science and Applications, 4(2). https://doi.org/10.1038/lsa.2015.24
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