A model describing the propagation of surface magnetostatic waves in the one-dimensional finite length magnonic crystal (MC) with losses was constructed. The features of microwave pulse passing through the band gap of MC were investigated experimentally. The conditions of soliton-like pulse formation were defined experimentally and by numerical simulation.
One-dimensional (1D) magnetic materials are intriguing due to their low densities, structural and chemical versatility. Herein a Dy(III) coordination polymer with significant single-molecule magnet behaviors has been constructed with strongly...