Raman scattering in a Heisenberg S = 1=2 antiferromagnet on the anisotropic triangular lattice

Natalia Perkins, Wolfram Brenig

Research output: Contribution to journalConference articlepeer-review

Abstract

We investigate two-magnon Raman scattering from the S = 1=2 Heisenberg antiferromagnet on the triangular lattice (THAF), considering both isotropic and anisotropic exchange interactions. We find that the Raman intensity for the isotropic THAF is insensitive to the scattering geometry, while both the line profile and the intensity of the Raman response for the anisotropic THAF shows a strong dependence on the scattering geometry. For the isotropic case we present an analytical and numerical study of the Raman intensity including both the effect of renormalization of the one-magnon spectrum by 1=S corrections and final-state magnon- magnon interactions. The bare Raman intensity displays two peaks related to one-magnon van-Hove singularities. We find that 1=S self-energy corrections to the one-magnon spectrum strongly modify this intensity profile. The central Raman-peak is significantly enhanced due to plateaus in the magnon dispersion, the high frequency peak is suppressed due to magnon damping, and the overall spectral support narrows considerably. Additionally we investigate final-state interactions by solving the Bethe-Salpeter equation to O(1=S). In contrast to collinear antiferromagnets, the non-collinear nature of the magnetic ground state leads to an irreducible magnon scattering which is retarded and non-separable already to lowest order. We show that final-state interactions lead to a rather broad Raman-continuum centered around approximately twice the 'roton'-energy.

Original languageEnglish (US)
Article number012036
JournalJournal of Physics: Conference Series
Volume145
Issue number1
DOIs
StatePublished - 2009
Externally publishedYes
Event4th International Conference on Highly Frustrated Magnetism 2008, HFM 2008 - Braunschweig, Germany
Duration: Sep 7 2008Sep 12 2008

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