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arxiv cond-mat/0401268 v1 pith:V3WM4FHO submitted 2004-01-15 cond-mat.str-el

Dimensional crossover and deconfinement in Bechgaard salts

classification cond-mat.str-el
keywords dimensionalchainstransitiondeconfinementsystembechgaardcoupledcrossover
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The Bechgaard salts are made of weakly coupled one dimensional chains. This particular structure gives the possibility to observe in these systems a dimensional crossover between a high temperature (or high energy) one dimensional phase and a two or three dimensional system. Since the filling of the chains is commensurate the system thus undergoes a deconfinement transition from a one dimensional Mott insulator to a two (or three) dimensional metal. Such a transition has of course a strong impact on the physical properties of these compounds, and is directly seen in transport measurements. In order to describe such a transition a dynamical mean field method has been introduced (chain-DMFT). Using this method we investigate a system of coupled Hubbard chains and show that we can indeed reproduce the deconfinement transition. This allows to determine physical quantities such as the transport transverse to the chains and the shape of the Fermi surface and quasiparticle residues in the low temperature phase.

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