Investigation of thermalization in giant-spin models by different Lindblad schemes
arXiv:1611.09695 · doi:10.1016/j.jmmm.2017.04.021
Abstract
The theoretical understanding of time-dependence in magnetic quantum systems is of great importance in particular for cases where a unitary time evolution is accompanied by relaxation processes. A key example is given by the dynamics of single-molecule magnets where quantum tunneling of the magnetization competes with thermal relaxation over the anisotropy barrier. In this article we investigate how good a Lindblad approach describes the relaxation in giant spin models and how the result depends on the employed operator that transmits the action of the thermal bath.
12 pages, 4 figures, submitted to JMMM