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DTSTART;TZID=Europe/Paris:20260518T140000
DTEND;TZID=Europe/Paris:20260522T133000
DTSTAMP:20260618T145149
CREATED:20260227T162943Z
LAST-MODIFIED:20260227T163750Z
UID:10000091-1779112800-1779456600@sfp-alpes.fr
SUMMARY:École thématique CNRS : Analyses protéomiques quantitatives
DESCRIPTION:Cette école propose un état de l’art des approches de protéomique quantitative\, de la préparation des échantillons à l’analyse statistique et bioinformatique des données de spectrométrie de masse.\n🔬 Thèmes abordés : quantification relative\, quantification d’échantillons complexes et des modifications post-traductionnelles\, analyses statistiques\, limites méthodologiques et principes FAIR. \nLe ➕ : Ateliers pratiques sur les différents outils pour l’identification et la quantification\, les statistiques et la bioanalyse\n👥 Pour qui ?  chercheurs\, ingénieurs\, biologistes\, bioinformaticiens\, doctorants et post-doctorants académiques ou privés \n📝 Pré-inscriptions et infos 👉  https://et2026.sciencesconf.org/  \n📩 Contact : et2026@sciencesconf.org
URL:https://sfp-alpes.fr/event/ecole-thematique-cnrs-analyses-proteomiques-quantitatives/
LOCATION:Domaine du Lazaret\, La Corniche\, 223 Rue Pasteur Benoît\, Sète\, 34200\, France
CATEGORIES:Ecole,Evènements
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BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20260519T140000
DTEND;TZID=Europe/Paris:20260519T150000
DTSTAMP:20260618T145149
CREATED:20260424T125744Z
LAST-MODIFIED:20260424T125744Z
UID:10000134-1779199200-1779202800@sfp-alpes.fr
SUMMARY:Arnaud CLAUDEL (CNRS - Institut Néel)
DESCRIPTION:Growth of graphene by CVD and transfer on various substrates\nRésumé : \nGraphene is a monolayer of sp² carbon atoms which forms a stable\, continuous and gas-impermeable membrane. It also exhibits several exceptional properties (electrical conductivity\, optical transparency\, …)\, making it a candidate of interest for various research topics and applications (transparent electrodes\, detection of chemical or biochemical compounds\, …). Since its discovery in 2004\, graphene has paved the way for two-dimensional (2D) materials\, which are currently the subject of extensive research. For over 15 years\, Institut Néel has been developing and optimising processes for the growth of graphene by chemical vapour deposition (CVD) as well as for transferring these layers onto foreign substrates for a wide range of fundamental and applied research projects. Graphene growth process by CVD and the different forms of graphene (monolayers\, multilayers\, single crystals\, …) will be described. Graphene transfer onto different types of materials will be presented in the frame of various research projects. \nShort Bio/CV \nArnaud CLAUDEL has a MSc (2006) and PhD (2009) in materials science and engineering from Grenoble INP. With 20 years of R&D experience in materials science\, he has been previously R&D project manager in both a company (ACERDE SAS – 2006-2012) and research institutes (CEA-LITEN – 2012-2013\, LMGP – 2014-2015) within fundamental and applicative research projects with academic and industrial partners. Since 2016\, he is CNRS research engineer and since 2021\, manager of the Epitaxial and thin layers (EpiCM) technological group at Institut Néel. His research activities are dedicated to processes for growing epitaxial and thin layers and are mainly focused on the growth and transfer of graphene layers since 2019. \n_ \nContact : deborah.verger@grenoble-inp.fr
URL:https://sfp-alpes.fr/event/arnaud-claudel-cnrs-institut-neel/
LOCATION:LMGP – salle des séminaires\, Grenoble INP -Phelma 3 parvis Louis Néel\, Grenoble\, 38054\, France
CATEGORIES:Séminaire
ORGANIZER;CN="LMGP":MAILTO:deborah.verger@grenoble-inp.fr
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BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20260519T140000
DTEND;TZID=Europe/Paris:20260519T150000
DTSTAMP:20260618T145149
CREATED:20260507T131427Z
LAST-MODIFIED:20260507T131427Z
UID:10000151-1779199200-1779202800@sfp-alpes.fr
SUMMARY:Oded ZILBERBERG (University of Konstanz)
DESCRIPTION:Entanglement-based observables for quantum impurities\nRésumé : \nQuantum impurities exhibit fascinating many-body phenomena when the small interacting impurity changes the physics of a large noninteracting environment. The characterisation of such strongly correlated nonperturbative effects is particularly challenging due to the infinite size of the environment\, and the inability of local correlators to capture the buildup of long-ranged entanglement in the system. Here\, we harness an entanglement-based observable—the purity of the impurity—as a witness for the formation of strong correlations. We showcase the utility of our scheme by exactly solving the open Kondo box model in the small box limit\, and thus describe all-electronic dot-cavity devices. Specifically\, we conclusively characterize the metal-to-insulator phase transition in the system and identify how the (conducting) dot-lead Kondo singlet is quenched by an (insulating) intraimpurity singlet formation. Furthermore\, we propose an experimentally feasible tomography protocol for the measurement of the purity\, which motivates the observation of impurity physics through their entanglement build up. \n– \nContact : simon.zihlmann@cea.fr
URL:https://sfp-alpes.fr/event/oded-zilberberg-university-of-konstanz/
LOCATION:CNRS – Salle Rémy Lemaire (K223)\, CNRS - Institut Néel 25 avenue des Martyrs\, Grenoble\, 38042\, France
CATEGORIES:Séminaire
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