Physics – Condensed Matter
Scientific paper
1997-06-06
Physics
Condensed Matter
10 pages, Latex, 6 figures, The revised results bring out a different power law behaviour for the spin-Peierls transition. The
Scientific paper
Dimerization of a spin-half Heisenberg antiferromagnet on a square lattice is investigated by taking unexpanded exchange couplings. Several dimerized configurations are considered some of which are shown to have lower ground state energies than others. In particular, the lattice deformations resulting in alternate strong and weak couplings along both the principal axes of a square lattice are shown to result in a larger gain in energy. In addition, a `columnar' configuration is shown to have a lower ground state energy and a faster increase in the energy gap parameter than a `staggered' configuration. The inclusion of unexpanded exchange coupling leads to a power law behaviour for the magnetic energy gain and the spin-Peierls gap, which is qualitatively different from that reported earlier. Instead of varying as $\delta ^x$, the two quantities are shown proportional to $\delta ^\nu / |ln \delta|.$ It is thus proposed that the logarithmic correction, that was regarded as an outcome of including umklapp processes for small distortions, can also be a direct consequence of using an un-truncated spin-spin exchange interaction. The calculations, which employ the coupled cluster method, lead to a conclusion result that the dimerization of a spin-half Heisenberg antiferromagnet on a sqaure lattice is unconditional.
Al-Omari Aiman
Nayyar A. H.
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