Cryogenic Characterization of 28 nm Bulk CMOS Technology for Quantum Computing
Beckers, Arnout; Jazaeri, Farzan; Ruffino, Andrea; Bruschini, Claudio; Baschirotto, Andrea; Enz, Christian
2017

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Résumé

This paper presents the first experimental investigation and physical discussion of the cryogenic behavior of a commercial 28 nm bulk CMOS technology. Here we extract the fundamental physical parameters of this technology at 300,77 and 4.2 K based on DC measurement results. The extracted values are then used to demonstrate the impact of cryogenic temperatures on the essential analog design parameters. We find that the simplified charge-based EKV model can accurately predict the cryogenic behavior. This represents a main step towards the design of analog/RF circuits integrated in an advanced bulk CMOS process and operating at cryogenic temperature for quantum computing control systems.

Détails

Titre Cryogenic Characterization of 28 nm Bulk CMOS Technology for Quantum Computing
Auteur(s) Beckers, Arnout ; Jazaeri, Farzan ; Ruffino, Andrea ; Bruschini, Claudio ; Baschirotto, Andrea ; Enz, Christian
Publié dans 2017 47th European Solid-State Device Research Conference (ESSDERC)
Pages 62-65
Présenté à 2017 47th European Solid-State Device Research Conference (ESSDERC), Leuven, Belgium, Sept. 11-14, 2017
Date 2017
Mots-clés (libres)
Note This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 688539
DOI https://doi.org/10.1109/ESSDERC.2017.8066592
Lien supplémentaire MOSQUITO H2020 project web site
Laboratoires ICLAB
Le document apparaît dans Production scientifique et compétences > STI - Faculté des sciences et techniques de l'ingénieur > STI Archives > ICLAB - Laboratoire de circuits intégrés
Production scientifique et compétences > Partenaires EPFL > Campus Neuchâtel > ICLAB - Laboratoire de circuits intégrés
Publications validées par des pairs
Papiers de conférence
Travail produit à l'EPFL
Date de création de la notice 2017-10-25

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