Visible photoluminescence of porous Si1−xGex obtained by stain etching

We have investigated visible photoluminescence (PL) from thin porous Si1−xGex alloy layers prepared by stain etching of molecular‐beam‐epitaxy‐grown material. Seven samples with nominal Ge fraction x varying from 0.04 to 0.41 were studied at room temperature and 80 K. Samples of bulk stain etched Si and Ge were also investigated. The composition of the porous material was determined using x‐ray photoemission spectroscopy and Rutherford backscattering techniques to be considerably more Ge rich than the starting epitaxial layers. While the luminescence intensity drops significantly with the increasing Ge fraction, we observe no significant variation in the PL wavelength at room temperature. This is clearly in contradiction to the popular model based on quantum confinement in crystalline silicon which predicts that the PL energy should follow the band‐gap variation of the starting material. However, our data are consistent with small active units containing only a few Si atoms that are responsible for the li...