Si-Ge heterostructures made of 6 monolayers of Si and 4 monolayers of Ge repeated p times (Si6Ge4)(p), strained on Si (1 0 0) substrates, have been investigated by photoluminescence measurements and electron microscopy. The films were grown at 400 degrees C by molecular beam epitaxy, using Sb as surfactant. The photoluminescence results of the whole set of samples show similar spectra, for both the single Ge quantum well (p = 1) and the thicker heterostructure (p = 30). The phonon assisted transverse optical line is measured at about 40 meV far from the no-phonon one, and this corresponds to the Ge-Ge vibration. Our results demonstrate that excitonic recombination occurs mainly in the Ge layers and it is indirect in nature, whatever the repetition number (p) is. Furthermore, we evidenced a high localization of the photoluminescence process excluding any superperiodicity effect.
Short period (Si 6Ge 4) p superlattices: Photoluminescence and electron microscopy study / N., Pinto; F., Tombolini; R., Murri; M., DE CRESCENZI; M., Casalboni; Barucca, Gianni; Majni, Giuseppe. - In: JOURNAL OF LUMINESCENCE. - ISSN 0022-2313. - 80:(1998), pp. 509-513. [10.1016/S0022-2313(98)00164-1]
Short period (Si 6Ge 4) p superlattices: Photoluminescence and electron microscopy study
BARUCCA, Gianni;MAJNI, GIUSEPPE
1998-01-01
Abstract
Si-Ge heterostructures made of 6 monolayers of Si and 4 monolayers of Ge repeated p times (Si6Ge4)(p), strained on Si (1 0 0) substrates, have been investigated by photoluminescence measurements and electron microscopy. The films were grown at 400 degrees C by molecular beam epitaxy, using Sb as surfactant. The photoluminescence results of the whole set of samples show similar spectra, for both the single Ge quantum well (p = 1) and the thicker heterostructure (p = 30). The phonon assisted transverse optical line is measured at about 40 meV far from the no-phonon one, and this corresponds to the Ge-Ge vibration. Our results demonstrate that excitonic recombination occurs mainly in the Ge layers and it is indirect in nature, whatever the repetition number (p) is. Furthermore, we evidenced a high localization of the photoluminescence process excluding any superperiodicity effect.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.