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Non-invasive probing of persistent conductivity in high quality ZnCdSe/ZnSe quantum wells using surface acoustic waves

D. A. Fuhrmann, H. J. Krenner, A. Wixforth, A. Curran, K. A. Prior, R. J. Warburton, J. Ebbecke

Journal of Applied Physics 107, 093717 (2010)


Attenuation of a surface acoustic wave is used as a highly sensitive and noninvasive probe of persistent photoconductivity effects in ZnCdSe/ZnSe quantum wells. These effects are observed over long time-scales exceeding several minutes at low temperatures. By varying the optical excitation energy and power and temperature we show that these effects arise from carriers photogenerated by interband excitation which are trapped in random potential fluctuations in the quantum wells related to compositional fluctuations. Effects related to defect levels in the band gap can be excluded and a transition of the conduction mechanism with temperature from a hopping to a percolation regime is observed. The transition temperature observed for our quantum well material is strongly reduced compared to bulk crystals. This indicates a superior structural quality giving rise to only weak potential fluctuation of ≤3 meV.


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