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Paper detail

Spin-liquid versus spiral-order phases in the anisotropic triangular lattice

We study the competition between magnetic and spin-liquid phases in the Hubbard model on the anisotropic triangular lattice, which is described by two hopping parameters t and t&#39; in different spatial directions and is relevant for layered organic charge-transfer salts. By using a variational approach that includes spiral magnetic order, we provide solid evidence that a spin-liquid phase is stabilized in the strongly-correlated regime and close to the isotropic limit t&#39;/t=1. Otherwise, a magnetically ordered spiral state is found, connecting the (collinear) Néel and the (coplanar) 120° phases. The pitch vector of the spiral phase obtained from the unrestricted Hartree-Fock approximation is substantially renormalized in presence of electronic correlations, and the Néel phase is stabilized in a wide regime of the phase diagram, i.e., for t&#39;/t < 0.75. We discuss these results in the context of organic charge-transfer salts.

preprint2013arXivOpen access
Luca F. TocchioHélène FeldnerFederico BeccaRoser ValentíClaudius Gros
cond-mat.str-el
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Luca F. TocchioHélène FeldnerFederico BeccaRoser ValentíClaudius Gros

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