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Autori principali: Crosta, Carolina, Nardin, Riccardo, Daoust, Patrick, Achilli, Stefano, Colombo, Ian, Campostrini, Matteo, Bonera, Emiliano, Pedrini, Jacopo, Moutanabbir, Oussama, Rigato, Valentino, Pezzoli, Fabio
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2510.12690
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author Crosta, Carolina
Nardin, Riccardo
Daoust, Patrick
Achilli, Stefano
Colombo, Ian
Campostrini, Matteo
Bonera, Emiliano
Pedrini, Jacopo
Moutanabbir, Oussama
Rigato, Valentino
Pezzoli, Fabio
author_facet Crosta, Carolina
Nardin, Riccardo
Daoust, Patrick
Achilli, Stefano
Colombo, Ian
Campostrini, Matteo
Bonera, Emiliano
Pedrini, Jacopo
Moutanabbir, Oussama
Rigato, Valentino
Pezzoli, Fabio
contents Atomic-scale crystal defects in Si are quantum-light sources offering tantalizing integration with existing photonic technologies. Yet, the controlled creation of near-infrared color centers for long- haul quantum communication and information still remains a challenge. In this work, we utilize light ions, such as H+ and He+, to gently generate quantum emitters in a crystalline Si matrix. Temperature-dependent photoluminescence measurements demonstrate the presence of optically-active defects, whose fluorescence matches the primary telecom window around 1550 nm. In addition, time-resolved investigations unveil long-lived excitonic states in the μs regime, thus confirming the formation of interstitial oxygen-carbon complexes, termed C-centers. Finally, we explored controlled ion irradiation strategies to seamlessly generate C-centers also in Ge-on-Si heterostructures, which offer an advanced technological platform for the future realization of integrated quantum photonics. This analysis, informed by practical color center synthesis and proof-of-principle experiments in epitaxial architectures, indicates intriguing prospects and profitable strategies to advance the burgeoning field of light-based quantum technologies.
format Preprint
id arxiv_https___arxiv_org_abs_2510_12690
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Formation of C-centers in Si-based systems by light ion irradiation
Crosta, Carolina
Nardin, Riccardo
Daoust, Patrick
Achilli, Stefano
Colombo, Ian
Campostrini, Matteo
Bonera, Emiliano
Pedrini, Jacopo
Moutanabbir, Oussama
Rigato, Valentino
Pezzoli, Fabio
Materials Science
Atomic-scale crystal defects in Si are quantum-light sources offering tantalizing integration with existing photonic technologies. Yet, the controlled creation of near-infrared color centers for long- haul quantum communication and information still remains a challenge. In this work, we utilize light ions, such as H+ and He+, to gently generate quantum emitters in a crystalline Si matrix. Temperature-dependent photoluminescence measurements demonstrate the presence of optically-active defects, whose fluorescence matches the primary telecom window around 1550 nm. In addition, time-resolved investigations unveil long-lived excitonic states in the μs regime, thus confirming the formation of interstitial oxygen-carbon complexes, termed C-centers. Finally, we explored controlled ion irradiation strategies to seamlessly generate C-centers also in Ge-on-Si heterostructures, which offer an advanced technological platform for the future realization of integrated quantum photonics. This analysis, informed by practical color center synthesis and proof-of-principle experiments in epitaxial architectures, indicates intriguing prospects and profitable strategies to advance the burgeoning field of light-based quantum technologies.
title Formation of C-centers in Si-based systems by light ion irradiation
topic Materials Science
url https://arxiv.org/abs/2510.12690