We have performed reflectivity and photoluminescence measurements on a set of InxGa1-xAs/InyGa1-yAs/GaAs(001) stepped/asymmetric quantum wells with an intentionally abrupt change of indium composition (x = 0.149, y = 0.064). These measurements have been compared against extensive spectroscopic data gathered on a set of symmetric quantum wells of similar structural parameters. For both symmetric and asymmetric quantum well samples, reflectivity spectra agree well with theoretical calculations both in terms of peak energy positions and line shapes. The photoluminescence spectra from the asymmetric quantum well samples is consistent with the hypothesis of three-dimensional exciton confinement induced by the random potential fluctuations at the In-alloy/In-alloy interface. A brief examination of the possible presence of such natural quantum dots at this poorly studied interface will be presented.
Spontaneous quantum dot formation at ingaas(x)/ingaas(y) interfaces
Schiumarini D;
2002
Abstract
We have performed reflectivity and photoluminescence measurements on a set of InxGa1-xAs/InyGa1-yAs/GaAs(001) stepped/asymmetric quantum wells with an intentionally abrupt change of indium composition (x = 0.149, y = 0.064). These measurements have been compared against extensive spectroscopic data gathered on a set of symmetric quantum wells of similar structural parameters. For both symmetric and asymmetric quantum well samples, reflectivity spectra agree well with theoretical calculations both in terms of peak energy positions and line shapes. The photoluminescence spectra from the asymmetric quantum well samples is consistent with the hypothesis of three-dimensional exciton confinement induced by the random potential fluctuations at the In-alloy/In-alloy interface. A brief examination of the possible presence of such natural quantum dots at this poorly studied interface will be presented.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
