Erbium-doped silicon nanocrystals in silicon/silicon nitride superlattice structures: Light emission and energy transfer
نویسندگان
چکیده
In this paper, we discuss optical emission, energy transfer and electroluminescence from a superlattice structure containing small ( 2nm diameter) amorphous silicon (Si) clusters coupled to erbium (Er) ions. The superlattice structure is fabricated by direct co-sputtering of thin ( 3–5nm) Er-doped siliconrich nitride/Si (Er:SRN/Si) layers subsequently annealed at different temperatures in order to induce the nucleation of Si clusters and to activate Er emission. In this paper, we discuss efficient Er emission and sensitization with nanosecond-fast non-radiative transfer time and we report on low turn-on voltage ( 7V) electroluminescence from simple electrical device structures. Our results demonstrate that small Si clusters embedded in silicon nitride-based superlattice structures provide a viable approach for the fabrication of Si-compatible optical devices. & 2008 Elsevier B.V. All rights reserved.
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