| Literature DB >> 26871354 |
B Willenberg1,2, M Schäpers3, A U B Wolter3, S-L Drechsler3, M Reehuis2, J-U Hoffmann2, B Büchner3,4, A J Studer5, K C Rule5, B Ouladdiaf6, S Süllow1, S Nishimoto3,4.
Abstract
Low-temperature neutron diffraction and NMR studies of field-induced phases in linarite are presented for magnetic fields H∥b axis. A two-step spin-flop transition is observed, as well as a transition transforming a helical magnetic ground state into an unusual magnetic phase with sine-wave-modulated moments ∥H. An effective J[over ˜]_{1}-J[over ˜]_{2} single-chain model with a magnetization-dependent frustration ratio α_{eff}=-J[over ˜]_{2}/J[over ˜]_{1} is proposed. The latter is governed by skew interchain couplings and shifted to the vicinity of the ferromagnetic critical point. It explains qualitatively the observation of a rich variety of exotic longitudinal collinear spin-density wave, SDW_{p}, states (9≥p≥2).Entities:
Year: 2016 PMID: 26871354 DOI: 10.1103/PhysRevLett.116.047202
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161