Valence-bond-solid order in antiferromagnets with spin-lattice coupling

Abstract

We propose that a valence-bond-solid (VBS) order can be stabilized in certain two-dimensional antiferromagnets due to spin-lattice coupling. In contrast to the VBS state of the Affleck-Kennedy-Lieb-Tesaki (AKLT) type in which the spin 2S and the lattice coordination z must be commensurate, the spin-lattice coupling-induced VBS state can occur when 2S is not an integer multiple of z. As a concrete example, S=2 spins on the triangular network with z=6 is discussed. Within the Schwinger boson mean-field theory it is shown that the ground state is given by the 3×3 modulation of the valence bond amplitudes for sufficiently strong spin-lattice coupling. Using the corresponding AKLT wave function, we work out the excitation spectrum for this state within the single-mode approximation. The calculated spectrum should provide a new type of collective mode which is distinct from the spin wave excitations of the magnetically ordered ground state.

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