The study of low dimensional and frustrated quantum magnets has been a central problem in condensed matter physics over the past decades. The main feature of frustrated magnets is the macroscopic degeneracy of the ground state that can be lifted by weak additional effects such as quantum fluctuations. This can lead to new exotic ground states without long-range order and novel excitations. Here we present an example, LiCrO$_2$, where frustration (and electronic properties) leads to strong coupling between magnons and phonons in a triangular lattice antiferromagnet. This coupling leads to a novel magnon dispersion with a roton minima at the zone boundary [1]. We show direct evidence using inelastic neutron and X-ray scattering that the roton is the direct result of the magnon-phonon coupling. Furthermore the discovered effect could shed light on the underlying physics of other Cr$^{3+}$ compounds with strange properties, such as the observed flat magnetic modes in the pyrochlore lattice antiferromagnet MgCr$_2$O$_4$. [1] S. Toth, et al., PRL 109, 127203 (2012).
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Authors
Sandor Toth
Paul Scherrer Institut, Laboratory for Neutron Scattering and Imaging, Paul Scherrer Institute
Katharina Rolfs
Paul Scherrer Institut, Laboratory for Scientific Developments and Novel Materials, Paul Scherrer Institute
Björn Wehinger
University of Geneva, Department of Quantum Matter Physics
Turan Birol
Rutgers University Department of Physics and Astronomy, Rutgers University, Rutgers, The State University of New Jersey
Uwe Stuhr
Paul Scherrer Institut, Laboratory for Neutron Scattering and Imaging
Björn Fåk
Institut Laue Langevin
Kenta Kimura
Osaka U, Osaka University, Department of Materials Engineering Science
Hiroshi Takatsu
Tokyo Metropolitan University, Department of Physics
Christian Rüegg
Paul Scherrer Institut, Laboratory for Neutron Scattering and Imaging
