Dresden 2006 – wissenschaftliches Programm

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HL: Halbleiterphysik

HL 14: II-VI semiconductors I

HL 14.6: Vortrag

Dienstag, 28. März 2006, 12:15–12:30, POT 151

Resonantly and Non-Resonantly Excited Bound Excitons in ZnO Epilayers — •Frank Bertram, Sören Giemsch, Jürgen Christen, Armin Dadgar, and Alois Krost — Institute of Experimental Physics, Otto-von-Guericke-University Magdeburg, Germany

The photoluminescence (PL) spectrum of ZnO exhibits a rich excitonic structure in the near bandgap region at 4K. A 8 µm thick ZnO epi-layer MOVPE grown on a GaN / sapphire template was investigated. The non-resonant PL spectrum is dominated by the impurity bound exciton I₈ and exhibits further individual BE lines (I₁, I₂, I₆, I₉), the TES-lines of I₈ and I₉ as well as the LO phonon replica exclusively from I₈. Under resonant excitation, i.e. E_excitation= E(I₈) the TES-I8 line and the I₈-LO line are much more intense and reveal a smaller line width. Under excitation at the spectral position of I₉ the optical features associated with I₈ completely disappear, while TES-I₉ increases and I₉-LO shows up. Resonantly excited time-resolved PL yields a mono-exponential decay with lifetimes τ(I₈)=270 ps and τ(I₉)=280ps, respectively, - distinctively different from the lifetimes obtained for non-resonant excitation. Measuring the decay lifetime as a function of tuned laser photon energy, both, I₈ and I₉ reveals a clear resonance, i.e. drop in time constant (< 200 ps), for E_laser-E_BE=5 meV. This corresponds to the A-B-valence band splitting and indicates strong scattering into the B-valence band.