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Ortolani, Michele
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Publications (7/7 displayed)
- 2024High-quality CMOS compatible n-type SiGe parabolic quantum wells for intersubband photonics at 2.5–5 THzcitations
- 2024Effect of 0.6-THz Continuous-Wave Irradiation on Pathologically Relevant Protein Aggregatescitations
- 2024High-quality CMOS compatible n-type SiGe parabolic quantum wells for intersubband photonics at 2.5–5 THzcitations
- 2017Functionalization of Scanning Probe Tips with Epitaxial Semiconductor Layerscitations
- 2015A Foundry-Compatible Plasmonic Material Platform Based on Heavily Doped Epitaxial Germanium-on-Silicon (poster)
- 2015Characterization and modelling of the steady-state and transient plasmonic properties of heavily-doped Ge (Orale)
- 2013Differential Fano interference spectroscopy of subwavelength hole arrays for mid-infrared mass sensors
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article
High-quality CMOS compatible n-type SiGe parabolic quantum wells for intersubband photonics at 2.5–5 THz
Abstract
<jats:title>Abstract</jats:title><jats:p>A parabolic potential that confines charge carriers along the growth direction of quantum wells semiconductor systems is characterized by a single resonance frequency, associated to intersubband transitions. Motivated by fascinating quantum optics applications leveraging on this property, we use the technologically relevant SiGe material system to design, grow, and characterize n-type doped parabolic quantum wells realized by continuously grading Ge-rich Si<jats:sub>1−<jats:italic>x</jats:italic></jats:sub>Ge<jats:sub><jats:italic>x</jats:italic></jats:sub> alloys, deposited on silicon wafers. An extensive structural analysis highlights the capability of the ultra-high-vacuum chemical vapor deposition technique here used to precisely control the quadratic confining potential and the target doping profile. The absorption spectrum, measured by means of Fourier transform infrared spectroscopy, revealed a single peak with a full width at half maximum at low and room temperature of about 2 and 5 meV, respectively, associated to degenerate intersubband transitions. The energy of the absorption resonance scales with the inverse of the well width, covering the 2.5–5 THz spectral range, and is almost independent of temperature and doping, as predicted for a parabolic confining potential. On the basis of these results, we discuss the perspective observation of THz strong light–matter coupling in this silicon compatible material system, leveraging on intersubband transitions embedded in all-semiconductor microcavities.</jats:p>