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  Bayrakci, S.; Tennant, D.; Leininger, P.; Keller, T.; Gibson, M.; Wilson, S.; Birgeneau, R.; Keimer, B.: Lifetimes of Antiferromagnetic Magnons in Two and Three Dimensions: Experiment, Theory, and Numerics. Physical Review Letters 111 (2013), p. 017204/1-5

10.1103/PhysRevLett.111.017204
Open Access Version

Abstract:
A high-resolution neutron spectroscopic technique is used to measure momentum-resolved magnon lifetimes in the prototypical two- and three-dimensional antiferromagnets Rb2MnF4 and MnF2, over the full Brillouin zone and a wide range of temperatures. We rederived theories of the lifetime resulting from magnon-magnon scattering, thereby broadening their applicability beyond asymptotically small regions of wave vector and temperature. Corresponding computations, combined with a small contribution reflecting collisions with domain boundaries, yield excellent quantitative agreement with the data. Comprehensive understanding of magnon lifetimes in simple antiferromagnets provides a solid foundation for current research on more complex magnets.