Quantum Design : the quantum Crystals cave
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Prix Nobel 1913 - un métal devient supraconducteur
En 1911, K. Onnes et son équipe mesurent la résistance électrique dans du mercure.
Ils découvrent qu’à quelques degrés du zéro absolu, ce matériau devient soudain supraconducteur.
Ils ouvrent ainsi la voie à un des champs de recherche les plus féconds encore aujourd’hui.
Prix Nobel 2007 - un aimant rend une résistance géante.
En 1988, les équipes d’A. Fert et de P. Grünberg découvrent qu’un champ magnétique modifie fortement la résistance électrique de couches minces.
C’est la magnétorésistance géante qui a permis depuis l’invention des disques durs et a ouvert la voie à une nouvelle recherche, la spintronique.
Prix Nobel 2010 - le graphène : le métal le plus mince
En 2004, A. Geim et K. Novoselov parviennent à mesurer les propriétés électriques du graphène, un matériau composé d’une seule couche d’atomes de carbone.
Ils réussissent à contrôler le nombre d’électrons qui y circulent.
Ils ouvrent ainsi la voie à de nouveaux composants électroniques.
Download the pdf files of the animations
Supra courbe VA
What is that graph ? - Chloé Passavant - Physics reimagined - 2013
Graphene courbe VA
What is that graph ? - Chloé Passavant - Physics reimagined - 2013
Magneto courbe VA
What is that graph ? - Chloé Passavant - Physics reimagined - 2013
Copyright : this project is made available under the Creative Commons License BY-NC-ND
This work is a collaboration between Chloé Passavant from DSAA de Design d’Illustration Scientifique of Ecole Estienne and our group.
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Quantum pop-ups ? The framework.
Students in scientific illustration have collaborated with a physicist around four major discoveries of quantum physics: the transistor, graphene, Bose-Einstein condensates and new superconductors. For each discovery, they decided to create a laboratory pop-up and a poster in the same graphic style, inspired by the years when the discovery took place. Here is the result. Download – Print – Cut – Tape – Read – it’s done. For you, for your class, for your friends … Click on the discovery of your choice.
This work is the result of a collaboration between students of the DSAA de Design d’Illustration Scientifique of Ecole Estienne and our team. A project initiated by Matthieu Lambert (Ecole Estienne) and Julien Bobroff (Université Paris Sud). Thanks to all teachers of the DSAA : Antoine Barnaud, Michèle Mabille, Alain Bouaziz, Sterenn Bourgeois-Heudiart, Charlène Letenneur.
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Quantum pop-ups ? The framework.
Students in scientific illustration have collaborated with a physicist around four major discoveries of quantum physics: the transistor, graphene, Bose-Einstein condensates and new superconductors. For each discovery, they decided to create a laboratory pop-up and a poster in the same graphic style, inspired by the years when the discovery took place. Here is the result. Download – Print – Cut – Tape – Read – it’s done. For you, for your class, for your friends … Click on the discovery of your choice.
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This work is the result of a collaboration between students of the DSAA de Design d’Illustration Scientifique of Ecole Estienne and our team. A project initiated by Matthieu Lambert (Ecole Estienne) and Julien Bobroff (Université Paris Sud). Thanks to all teachers of the DSAA : Antoine Barnaud, Michèle Mabille, Alain Bouaziz, Sterenn Bourgeois-Heudiart, Charlène Letenneur.
Authors:
Quantum pop-ups ? The framework.
Students in scientific illustration have collaborated with a physicist around four major discoveries of quantum physics: the transistor, graphene, Bose-Einstein condensates and new superconductors. For each discovery, they decided to create a laboratory pop-up and a poster in the same graphic style, inspired by the years when the discovery took place. Here is the result. Download – Print – Cut – Tape – Read – it’s done. For you, for your class, for your friends … Click on the discovery of your choice.
This work is the result of a collaboration between students of the DSAA de Design d’Illustration Scientifique of Ecole Estienne and our team. A project initiated by Matthieu Lambert (Ecole Estienne) and Julien Bobroff (Université Paris Sud). Thanks to all teachers of the DSAA : Antoine Barnaud, Michèle Mabille, Alain Bouaziz, Sterenn Bourgeois-Heudiart, Charlène Letenneur.
Authors:
Quantum pop-ups ? The framework.
Students in scientific illustration have collaborated with a physicist around four major discoveries of quantum physics: the transistor, graphene, Bose-Einstein condensates and new superconductors. For each discovery, they decided to create a laboratory pop-up and a poster in the same graphic style, inspired by the years when the discovery took place. Here is the result. Download – Print – Cut – Tape – Read – it’s done. For you, for your class, for your friends … Click on the discovery of your choice.
This work is the result of a collaboration between students of the DSAA de Design d’Illustration Scientifique of Ecole Estienne and our team. A project initiated by Matthieu Lambert (Ecole Estienne) and Julien Bobroff (Université Paris Sud). Thanks to all teachers of the DSAA : Antoine Barnaud, Michèle Mabille, Alain Bouaziz, Sterenn Bourgeois-Heudiart, Charlène Letenneur.
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QuantumMadeSimple.com to learn more...
This website benefited from the support of the PALM Labex and the Chair « La Physique Autrement » led by Fondation Paris-Sud and sponsored by Air Liquide.
SCIENTIFIC BOARD : Julien Bobroff and Frédéric Bouquet from the group « Physics Reimagined » (Laboratoire de Physique des Solides, Université Paris Sud and CNRS) with the help of Fabrice Bert (LPS), Véronique Brouet (LPS), Vincent Jacques (LPS), Marianne Imperor (LPS), Pascale Launois (LPS), Marino Marsi (LPS), Mark Oliver Goerbig (LPS), Janet Rafner (LPS), Claire Lauhle (SOLEIL and Université Paris Sud), Jean-Noël Fuchs (Laboratoire de Physique Théorique de la Matière Condensée, Université Pierre et Marie Curie), Vincent Jacques (Laboratoire Aimé Cotton, CNRS, ENS Cachan, Univ. Paris-Sud), David Clement (Laboratoire Charles Fabry, Institut d’Optique Graduate School), Christian Colliex (LPS), Nathalie Brun (LPS), Françoise Livolant (LPS), Frédéric Restagno (LPS), Yves Noat (INSP, UPMC).
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Le sujet de la conférence
Il s’agit d’une conférence sur la physique quantique, la supraconductivité, avec expériences en direct et sans powerpoint, donnée à l’Université de Caen dans le cadre du cycle “Grand témoin” organisé le 21 février 2013 par Relais d’sciences, la Région Basse-Normandie et le Rectorat de l’Académie de Caen.
Plus d’informations : https://www.relais-sciences.org
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Julien Bobroff
