N-TYPE SIGE HETEROSTRUCTURES FOR THZ INTERSUBBAND TRANSITIONS

Authors :: Seta, M.
Capellini, G.
Ciasca, G.
Busby, Y.
Evangelisti, F.
Nicotra, G.
Nardone, M.
Ortolani, M.
MICHELE VIRGILIO
Grosso, G.
Nucara, A.
Calvani, P.
M., DE SETA
Capellini, Giovanni
G., Ciasca
Y., Busby
F., Evangelisti
G., Nicotra
M., Nardone
M., Ortolani
M., Virgilio
G., Grosso
A., Nucara
AND P., Calvani
DE SETA, Monica
Capellini, G.
Ciasca, G.
Busby, Y.
Evangelisti, F.
Nicotra, G.
Nardone, M.
Ortolani, M.
Virgilio, M.
Grosso, G.
Nucara, A.
Calvani, P.
Source :: Scopus-Elsevier, Web of Science, Giuseppe Nicotra, Sapienza Università di Roma-IRIS
Publication Year :: 2009
Abstract: Research on band-gap engineering of Silicon-Germanium heterostructures for the realization of Quantum Cascade (QC) structures emitting in the Terahertz (THz) spectral region has recently attracted a vast interest. While several successful attempts have been reported using hole-based (p-type) intersubband transitions, very few results have been published on systems exploiting electrons (n-type). In this work we present the optical and structural characterization of n-type heterostructures made either of tensely-strained Si (sSi) quantum well (QW) confined between low Ge content Si1-xGex barriers [0.2

Language :: English
Database :: OpenAIRE
Journal :: Scopus-Elsevier, Web of Science, Giuseppe Nicotra, Sapienza Università di Roma-IRIS
Accession number :: edsair.dedup.wf.001..0d865d03e4e2489552b5fc360f82f22e