Interactions with electronic excitations can soften and/or broaden phonons. They are greatly amplified at wavevectors Q+- that connect parallel (nested) sheets of the Fermi surface. In such a case, called a Kohn anomaly, the phonon dispersion sharply dips and its linewidth has a maximum at Q+-. Here we present results of inelastic x-ray scattering measurements that uncovered soft phonons in chromium far from Q+-. They appear in addition to the previously reported soft phonons at Q+-. Calculations in the local density approximation (LDA) show that the new anomalies originate from enhanced electron-phonon coupling. A similar mechanism may explain phonon anomalies away from nesting wavevectors in copper oxide superconductors and other compounds.
@article{arxiv.0909.0594,
title = {Strong phonon softening without Fermi surface nesting},
author = {D. Lamago and M. Hoesch and M. Krisch and R. Heid and K. -P. Bohnen and P. Boeni and D. Reznik},
journal= {arXiv preprint arXiv:0909.0594},
year = {2009}
}