Tekijä: Florian Steger; Simone Ehm; Michael Tchirikov Kustantaja: Springer-Verlag Berlin and Heidelberg GmbH & Co. KG (2014) Saatavuus: Noin 17-20 arkipäivää
Tekijä: Ralf Boscheck; Christine Batruch; Stewart Hamilton; Jean-Pierre Lehmann; Caryl Pfeiffer; Ulrich Steger; Michael Yaziji Kustantaja: Cambridge University Press (2008) Saatavuus: | Arvioimme, että tuote lähetetään meiltä noin 1-3 viikossa
Tekijä: Ralf Boscheck; Christine Batruch; Stewart Hamilton; Jean-Pierre Lehmann; Caryl Pfeiffer; Ulrich Steger; Michael Yaziji Kustantaja: Cambridge University Press (2008) Saatavuus: | Arvioimme, että tuote lähetetään meiltä noin 1-3 viikossa
Tekijä: Lindsay G. Oades; Michael Steger; Antonelle Delle Fave; Jonathan Passmore Kustantaja: John Wiley and Sons Ltd (2017) Saatavuus: Noin 14-17 arkipäivää
Tekijä: Christian Brockmann; Donald A. Russell; Milena Melfi; Michael Trapp; Robert Parker; Heinz-Günther Nesselrath; Flor Steger Kustantaja: Mohr Siebeck (2016) Saatavuus: Ei tiedossa
Tekijä: Lindsay G. Oades; Michael Steger; Antonelle Delle Fave; Jonathan Passmore Kustantaja: John Wiley and Sons Ltd (2020) Saatavuus: Noin 14-17 arkipäivää
Tekijä: Alex Chi-Keung Chan (ed.); Michael F. Steger (ed.); Raymond Chi-Fai Chui (ed.); Nicolson Yat-Fan Siu (ed.); Susanna Wong Ip Kustantaja: Atlantis Press (2023) Saatavuus: Loppuunmyyty.
Springer Sivumäärä: 97 sivua Asu: Kovakantinen kirja Painos: 2013 Julkaisuvuosi: 2013, 19.03.2013 (lisätietoa) Kieli: Englanti
The fundamental properties of deep luminescence centres in Si associated with transition metals such as Cu, Ag, Au, and Pt have been a focus of interest for decades, both as markers for these deleterious contaminants, and also in the quest for efficient Si-based light emission.
This dissertation presents the results of ultra-high resolution photoluminescence studies of these centres in specially prepared, highly enriched 28-Si samples. The greatly improved spectral resolution due to this enrichment led to the discovery of isotopic fingerprints. These fingerprints have revealed that the detailed constituents of all of the centres previously studied had been identified incorrectly. They also revealed the existence of several different families of impurity complexes containing either four or five atoms chosen from Li, Cu, Ag, Au, and Pt. These centres’ constituents have been determined, together with no-phonon transition energies, no-phonon isotope shifts, local vibrational mode energies, and the isotope shifts of the local vibrational mode energies. The data presented here for these centres should prove useful for the currently sought theoretical explanations of their formation, stability, and properties.