Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
2010-04-14
Physical Review B 82, 024416 (2010)
Physics
Condensed Matter
Strongly Correlated Electrons
31 pages, 8 figures
Scientific paper
10.1103/PhysRevB.82.024416
We use the coupled cluster method (CCM) to study the zero-temperature phase diagram of a 2D frustrated spin-half antiferromagnet, the so-called Union Jack model. It is defined on a square lattice such that all nearest-neighbor bonds are present with a strength $J_{1} > 0$, but only half the next-nearest-neighbor bonds are present with a strength $J_{2} \equiv \kappa J_{1} > 0$. The bonds are arranged such that on the $2 \times 2$ unit cell they form the pattern of the Union Jack flag. We find strong evidence for a first phase transition between a N\'{e}el phase and a canted ferrimagnetic phase at a critical coupling $\kappa_{c_{1}} = 0.66 \pm 0.02$. At the transition the energy and its first derivative seem continuous, thus providing a typical scenario of a second-order transition, although a weakly first-order transition cannot be excluded. By contrast, the average on-site magnetization $M$ approaches a nonzero value $M_{c_{1}}=0.195 \pm 0.005$ on both sides of the transition, which is more typical of a first-order transition. The slope $dM/d\kappa$ also appears to be continuous, or very nearly so, at the critical point $\kappa_{c_{1}}$. We find strong evidence that the canted phase becomes unstable at large values of $\kappa$, and hence we have also used the CCM with a model collinear semi-stripe-ordered ferrimagnetic state in which alternating rows (and columns) are ferromagnetically and antiferromagnetically ordered. We find tentative evidence, based on the relative energies of the two states, for a second (first-order) phase transition between the canted and semi-stripe-ordered states at a large value of the coupling parameter around $\kappa_{c_{2}} \approx 125 \pm 5$. This prediction, however, is based on an extrapolation of the CCM results for the canted state into regimes where the CCM equations at any level of approximation beyond the lowest have no solutions.
Bishop Raymond F.
Campbell C. E.
Farnell Damian J. J.
Li P. H. Y.
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