【 摘 要 】

We study the dynamics and relaxation of elementary excitations (magnons) in the spin nematic (quadrupole ordered) phase of S = 1 magnets. We develop a general phenomenological theory of spin dynamics and relaxation for spin-1 systems. The results of the phenomenological approach are compared to those obtained by microscopic calculations for the specific S = 1 model with isotropic bilinear and biquadratic exchange interactions. This model exhibits a rich behavior depending on the ratio of bilinear and biquadratic exchange constants, including several points with an enhanced symmetry. It is shown that symmetry plays an important role in relaxation. Particularly, at the SU(3) ferromagnetic point the magnon damping Gamma depends on its wave vector k as Gamma proportional to k(4), while a deviation from the high-symmetry point changes the behavior of the leading term to Gamma proportional to k(2). We point out a similarity between the behavior of magnon relaxation in spin nematics to that in an isotropic ferromagnet.

【 授权许可】

Free