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QED in a pencil trace
Kostya NOVOSELOV
School of Physics and Astronomy, Univ. of Manchester, UK
Wed, Oct. 25th 2006, 11:00
SPEC Salle Itzykson, Bât.774, Orme des Merisiers
(accueil café 15 minutes auparavant / coffee 15 minutes before)
When one writes by a pencil, thin flakes of graphite are left on a surface. Some of them are only one angstrom thick and can be viewed as individual atomic planes cleaved away from the bulk. This strictly two dimensional material called graphene was presumed not to exist in the free state and remained undiscovered until the last year. In fact, there exists a whole class of such two-dimensional crystals. The most amazing things about graphene probably is that its electrons move with little scattering over huge (submicron) distances as if they were completely insensitive to the environment only a couple of angstroms away. Moreover, whereas electronic properties of other materials are commonly described by quasiparticles that obey the Schrödinger equation, electron transport in graphene is different: It is governed by the Dirac equation so that charge carriers in graphene mimic relativistic particles with zero rest mass. This 2D system is not only interesting in itself but also allows one to access - in a condensed matter experiment - the subtle and rich physics of quantum electrodynamics.

 

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