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Cerutti, Laurent
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Topics
Publications (23/23 displayed)
- 2024III-V/Si epitaxial growth and antiphase domains: a matter of symmetry
- 2024Understanding III-V/Si Heteroepitaxy: Experiments and Theory
- 2023Epitaxial Growth of III‐Vs on On‐Axis Si: Breaking the Symmetry for Antiphase Domains Control and Buryingcitations
- 2023THz time-domain spectroscopy modulated with semiconductor plasmonic perfect absorberscitations
- 2022Quantum plasmonics and hyperbolic material for biosensing
- 2022Mid-infrared III–V semiconductor lasers epitaxially grown on Si substratescitations
- 2022Mid-infrared III–V semiconductor lasers epitaxially grown on Si substratescitations
- 2022Crystal Phase Control during Epitaxial Hybridization of III‐V Semiconductors with Siliconcitations
- 2022Crystal Phase Control during Epitaxial Hybridization of III‐V Semiconductors with Siliconcitations
- 2021GaSb-based laser diodes grown on MOCVD GaAs-on-Si templatescitations
- 2021GaSb-based laser diodes grown on MOCVD GaAs-on-Si templatescitations
- 2021Crystal Phase Control during Epitaxial Hybridization of III‐V Semiconductors with Siliconcitations
- 2020Zinc-blende group III-V/group IV epitaxy: Importance of the miscutcitations
- 2020Mid-infrared laser diodes epitaxially grown on on-axis (001) siliconcitations
- 2019Towards MIR VCSELs operating in CW at RT
- 2019The Interaction of Extended Defects as the Origin of Step Bunching in Epitaxial III–V Layers on Vicinal Si(001) Substratescitations
- 2018A universal mechanism to describe the III-V on Si growth by Molecular Beam Epitaxy
- 2018A universal mechanism to describe the III-V on Si growth by Molecular Beam Epitaxy
- 2018Mid-IR plasmonic compound with gallium oxide toplayer formed by GaSb oxidation in watercitations
- 2018Quantum cascade lasers grown on siliconcitations
- 2014Silicon-based photonic integration beyond the telecommunication wavelength rangecitations
- 2014Mid-IR heterogeneous silicon photonicscitations
- 2013Integrated thin-film GaSb-based Fabry-Perot lasers: towards a fully integrated spectrometer on a SOI waveguide circuitcitations
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article
Mid-infrared laser diodes epitaxially grown on on-axis (001) silicon
Abstract
The direct epitaxial growth of III-V semiconductor lasers on standard, CMOS-compatible, on-axis (001) Si substrates is actively sought for the realization of active photonic integrated circuits. Here we report on the first mid-infrared semiconductor laser epitaxially grown on on-axis Si substrates, i.e., compatible with industry standards. Furthermore, these GaSb-based laser diodes demonstrate low threshold current density, low optical losses, high temperature operation, and high characteristic temperatures. These results represent a breakthrough toward the integration of semiconductor laser sources on Si for smart sensors.