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1.
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Silicon Photonics for Harsh Environments
/ Alfiero, Daniele (CERN ; Birmingham U.) ; Baron, Sophie (CERN) ; Baszczyk, Mateusz (CERN) ; Biereigel, Stefan (CERN) ; Détraz, Stéphane (CERN) ; Klekotko, Adam (CERN) ; Kulis, Szymon (CERN) ; Martina, Francesco (CERN) ; Moreira, Paulo (CERN) ; Olanterä, Lauri (CERN) et al.
We report the qualification of Silicon Photonics technology for deployment in the low temperature and high radiation environments of high energy physics experiments. This work is also applicable to satellite communications systems..
2025 - 3 p.
- Published in : : 5 (2025) , no. 2025, pp. W2A.3
External links: Fulltext; Fulltext
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2.
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CWDM-based radiation-tolerant high-speed optical links
/ Cristiano, A (CERN) ; Sigaud, C (CERN) ; Scarcella, C (CERN) ; Quintana, I (CERN) ; Olanterä, L (CERN) ; Alfiero, D (CERN ; Birmingham U.) ; Muthuganesan, H (CERN) ; Soós, C (CERN) ; Detraz, S (CERN) ; Troska, J (CERN)
The consolidation of the Large Hadron Collider (LHC) Beam Instrumentation requires the digitisation of the analogue signals from the detectors within the radiation areas. Subsequently, the digital data are transmitted via the existing fibre plant to the back-end area for processing. [...]
2025 - 7 p.
- Published in : JINST
Fulltext: PDF;
In : Topical Workshop on Electronics for Particle Physics 2024, Glasgow, United Kingdom, 30 Sep - 4 Oct 2024, pp.C03002
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3.
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Silicon Photonics Circuits for the optical readout of CERN detectors
/ Scarcella, C (CERN) ; Alfiero, D (CERN ; Birmingham U.) ; Cristiano, A (CERN) ; Detraz, S (CERN) ; Muthuganesan, H (CERN) ; Olanterä, L (CERN) ; Quintana, I (CERN) ; Sigaud, C (CERN) ; Soós, C (CERN) ; Troska, J (CERN)
The increasing luminosity in CERN experiments, enabled by future upgrades, demands optical links with enhanced bandwidth and radiation tolerance. Silicon Photonics (SiPh) has emerged as the optoelectronic technology meeting these requirements and is being considered for the next generation of optical readout systems for CERN detectors. [...]
2025 - 7 p.
- Published in : JINST
Fulltext: PDF;
In : Topical Workshop on Electronics for Particle Physics 2024, Glasgow, United Kingdom, 30 Sep - 4 Oct 2024, pp.C02043
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4.
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First results of an evaluation of $^{100}$Gb/s Ethernet as a future HEP readout link
/ Stümpert, Valentin (CERN ; KIT, Karlsruhe, IPE) ; Klekotko, Adam (CERN ; Leuven U.) ; Perro, Alberto (CERN ; Aix-Marseille U.) ; Sigaud, Christophe Gabriel (CERN) ; Montesinos, Daniel Hernandez (CERN) ; Martina, Francesco (CERN) ; Vichoudis, Paschalis (CERN) ; Baron, Sophie (CERN) ; Biereigel, Stefan (CERN)
This work presents first results from a feasibility study to qualify commercial 100 Gb/s Ethernet as a readout link for future high-energy physics detectors. The motivation for this work is to examine the possibility of reading out future detector front-ends directly via commercial, high bandwidth, cost-optimized data centers, without the need of the intermediate custom-link/hardware layer used for this purpose thus far. [...]
2025 - 7 p.
- Published in : JINST
Fulltext: PDF;
In : Topical Workshop on Electronics for Particle Physics 2024, Glasgow, United Kingdom, 30 Sep - 4 Oct 2024, pp.C02024
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5.
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6.
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Thermal annealing in silicon photonics ring modulators
/ Lalović, M (Belgrade, Inst. Phys. ; CERN) ; Detraz, S (CERN) ; Marcon, L (CERN) ; Olanterä, L (CERN) ; Prousalidi, T (CERN ; Natl. Tech. U., Athens) ; Sandven, U (CERN) ; Scarcella, C (CERN) ; Sigaud, C (CERN) ; Soós, C (CERN) ; Troska, J (CERN)
Silicon photonics technology promises significant improvements for fibre optic links of future upgrades of HEP experiments. Such systems will require high levels of radiation tolerance and silicon photonics modulators have been shown to be very robust when exposed to high levels of radiation under certain conditions. [...]
2023 - 7 p.
- Published in : JINST 18 (2023) C03028
In : Topical Workshop on Electronics for Particle Physics 2022 (TWEPP 2022), Bergen, Norway, 19 - 23 Sep 2022, pp.C03028
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7.
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Effects of High Fluence Particle Irradiation on Germanium-on-Silicon Photodiodes
/ Olanterä, Lauri (CERN) ; Scarcella, Carmelo (CERN) ; Lalović, Milana (CERN ; Belgrade U.) ; Détraz, Stéphane (CERN) ; Pandey, Awanish (CERN) ; Prousalidi, Theoni (CERN ; Natl. Tech. U., Athens) ; Sandven, Ulrik (CERN) ; Sigaud, Christophe (CERN) ; Soós, Csaba (CERN) ; Troska, Jan (CERN)
Waveguide-Integrated Germanium-on-Silicon (Ge-on-Si) photodiodes are integral components in silicon photonics and understanding their radiation tolerance is important for applications that intend to use silicon photonics in harsh radiation environments. Here we report the results of high fluence particle irradiation tests on Ge-on-Si photodiodes. [...]
2024 - 8 p.
- Published in : IEEE Trans. Nucl. Sci. 71 (2024) 728-735
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8.
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9.
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System Development of Radiation-Tolerant Silicon Photonics Transceivers for High Energy Physics Applications
/ Prousalidi, Theoni (CERN ; Natl. Tech. U., Athens) ; Scarcella, Carmelo (CERN) ; Ahmed, Aalia (CERN ; York U., England, Dept. Math.) ; Detraz, Stéphane (CERN) ; Lalović, Milana (Belgrade U.) ; Olanterä, Lauri (CERN) ; Pandey, Awanish (CERN) ; Sigaud, Christophe (CERN) ; Soós, Csaba (CERN) ; Troska, Jan (CERN) et al.
Silicon photonics enables the manufacturing of high-speed, low-power, integrated optical circuits with compact footprints, and recent studies have also shown it to have a high tolerance to radiation. The technology has, therefore, been identified as an excellent candidate for the development of the next generation of radiation-tolerant optical links for high-energy physics (HEP) experiments at CERN. [...]
2023 - 8 p.
- Published in : IEEE Trans. Nucl. Sci. 70 (2023) 2373-2380
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10.
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High speed radiation tolerant optical links based on coarse wavelength division multiplexing
/ Marcon, L (CERN) ; Scarcella, C (CERN) ; Detraz, S (CERN) ; Lalović, M (CERN ; Belgrade U.) ; Olantera, L (CERN) ; Prousalidi, T (CERN ; Natl. Tech. U., Athens) ; Sandven, U (CERN) ; Sigaud, C (CERN) ; Soós, C (CERN) ; Troska, J (CERN)
The upgrade of CERN’s accelerator complex requires improved beam instrumentation systems that will generate an increased volume of data to be transferred from the radiation areas to the back-end. A solution that increases the throughput of already deployed fibers, with minimal increase of the system complexity, consists in implementing the coarse wavelength division multiplexing (CWDM) technique where independent optical carriers at properly spaced wavelengths are multiplexed into a single fiber. [...]
2023 - 7 p.
- Published in : JINST 18 (2023) C02055
In : Topical Workshop on Electronics for Particle Physics 2022 (TWEPP 2022), Bergen, Norway, 19 - 23 Sep 2022, pp.C02055
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