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n-type Ge/SiGe Multi Quantum-Wells for a THz Quantum Cascade Laser

Authors :: Oliver Skibitzki
Oussama Moutanabbir
Thomas Grange
Samik Mukherjee
Giovanni Capellini
Jérôme Faist
Michele Virgilio
K. Rew
Luca Persichetti
Luciana Di Gaspare
Michele Montanari
Marvin Zöllner
Leonetta Baldassarre
Stefan Birner
Monica De Seta
Douglas J. Paul
G. Scalari
David Stark
Chiara Ciano
Michele Ortolani
Ciano, Chiara
Di Gaspare, Luciana
Montanari, Michele
Persichetti, Luca
Baldassarre, Leonetta
Ortolani, Michele
Capellini, Giovanni
Skibitzki, Oliver
Zöllner, Marvin
Faist, Jerome
Scalari, Giacomo
Stark, David
Paul, Douglas J
Rew, Kirsty
Moutanabbir, Oussama
Mukherjee, Samik
Grange, Thoma
Birner, Stefan
Virgilio, Michele
De Seta, Monica
Source :: ECS Transactions 93 63
Publication Year :: 2019
Publisher :: Zenodo, 2019.
Abstract: Exploiting intersubband transitions in Ge/SiGe quantum cascade devices provides a way to integrate terahertz light emitters into silicon-based technology. With the view to realizing a Ge/SiGe Quantum Cascade Laser, we present the optical and structural properties of n-type strain-symmetrized Ge/SiGe asymmetric coupled quantum wells grown on Si(001) substrates by means of ultrahigh vacuum chemical vapor deposition. We demonstrate high material quality of strain-symmetrized structures and heterointerfaces as well as control over inter-well coupling and electron tunneling. Motivated by the promising results obtained on ACQWs, which are the basic building block of a cascade structure, we investigate, both experimentally and theoretically, a Ge/SiGe THz QCL design, optimized through a non-equilibrium Green’s function formalism