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Fine Structure Constant Defines Visual Transparency of Graphene

Rahul R. NairDepartment of Physics, University of Minho, P-4710-057 Braga, PortugalPeter BlakeDepartment of Physics, University of Minho, P-4710-057 Braga, PortugalA. N. GrigorenkoDepartment of Physics, University of Minho, P-4710-057 Braga, PortugalKostya S. NovoselovDepartment of Physics, University of Minho, P-4710-057 Braga, PortugalTimothy J. BoothDepartment of Physics, University of Minho, P-4710-057 Braga, PortugalTobias StauberDepartment of Physics, University of Minho, P-4710-057 Braga, PortugalN. M. R. PeresDepartment of Physics, University of Minho, P-4710-057 Braga, PortugalA. K. GeǐmDepartment of Physics, University of Minho, P-4710-057 Braga, Portugal
2008en
ABI

Аннотация

There are few phenomena in condensed matter physics that are defined only by the fundamental constants and do not depend on material parameters. Examples are the resistivity quantum, h/e2 (h is Planck's constant and e the electron charge), that appears in a variety of transport experiments and the magnetic flux quantum, h/e, playing an important role in the physics of superconductivity. By and large, sophisticated facilities and special measurement conditions are required to observe any of these phenomena. We show that the opacity of suspended graphene is defined solely by the fine structure constant, a = e2/hc feminine 1/137 (where c is the speed of light), the parameter that describes coupling between light and relativistic electrons and that is traditionally associated with quantum electrodynamics rather than materials science. Despite being only one atom thick, graphene is found to absorb a significant (pa = 2.3%) fraction of incident white light, a consequence of graphene's unique electronic structure.

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