We use the coupled cluster method (CCM) to study the ground-state properties and lowest-lying triplet excited state of the spin-half {\it XXZ} antiferromagnet on the square lattice. The CCM is applied to it to high orders of approximation by using an efficient computer code that has been written by us and which has been implemented to run on massively parallelized computer platforms. We are able therefore to present precise data for the basic quantities of this model over a wide range of values for the anisotropy parameter Δ in the range −1≤Δ1) regimes, where Δ→∞ represents the Ising limit. We present results for the ground-state energy, the sublattice magnetization, the zero-field transverse magnetic susceptibility, the spin stiffness, and...
Coplanar model states for applications of the coupled cluster method (CCM) to problems in quantum ma...
Strongly interacting quantum spin–lattice models exhibit a wide variety of phases with diverse and s...
The J1−J2 Heisenberg model is a “canonical” model in the field of quantum magnetism in order to stud...
We use the coupled cluster method (CCM) to study the ground-state properties and lowest-lying triple...
We apply the coupled cluster method to high orders of approximation and exact diagonalizations to st...
In this article, we present new results of high-order coupled cluster method (CCM) calculations, bas...
Using the coupled cluster method (CCM) we study the zero-temperature phase diagram of a spin-half He...
We apply the coupled cluster method (CCM) in order to study the ground-state properties of the (unfr...
We illustrate how the systematic inclusion of multi-spin correlations of the quantum spin–lattice sy...
We present a new high-order coupled cluster method (CCM) formalism for the ground states of lattice ...
Interest in lattice quantum spin systems as models of quantum magnets has increased with the discove...
The interplay between lattice topology, frustration, and spin quantum number, s, is explored for the...
Interest in lattice quantum spin systems as models of quantum magnets has increased with the discove...
Coplanar model states for applications of the coupled cluster method (CCM) to problems in quantum ma...
Coplanar model states for applications of the coupled cluster method (CCM) to problems in quantum ma...
Strongly interacting quantum spin–lattice models exhibit a wide variety of phases with diverse and s...
The J1−J2 Heisenberg model is a “canonical” model in the field of quantum magnetism in order to stud...
We use the coupled cluster method (CCM) to study the ground-state properties and lowest-lying triple...
We apply the coupled cluster method to high orders of approximation and exact diagonalizations to st...
In this article, we present new results of high-order coupled cluster method (CCM) calculations, bas...
Using the coupled cluster method (CCM) we study the zero-temperature phase diagram of a spin-half He...
We apply the coupled cluster method (CCM) in order to study the ground-state properties of the (unfr...
We illustrate how the systematic inclusion of multi-spin correlations of the quantum spin–lattice sy...
We present a new high-order coupled cluster method (CCM) formalism for the ground states of lattice ...
Interest in lattice quantum spin systems as models of quantum magnets has increased with the discove...
The interplay between lattice topology, frustration, and spin quantum number, s, is explored for the...
Interest in lattice quantum spin systems as models of quantum magnets has increased with the discove...
Coplanar model states for applications of the coupled cluster method (CCM) to problems in quantum ma...
Coplanar model states for applications of the coupled cluster method (CCM) to problems in quantum ma...
Strongly interacting quantum spin–lattice models exhibit a wide variety of phases with diverse and s...
The J1−J2 Heisenberg model is a “canonical” model in the field of quantum magnetism in order to stud...