| Literature DB >> 34110224 |
L Heinze1, H O Jeschke2, I I Mazin3,4, A Metavitsiadis5, M Reehuis6, R Feyerherm6, J-U Hoffmann6, M Bartkowiak6, O Prokhnenko6, A U B Wolter7, X Ding8, V S Zapf8, C Corvalán Moya8,9, F Weickert8, M Jaime8, K C Rule10, D Menzel1, R Valentí11, W Brenig5, S Süllow1.
Abstract
We present a combined experimental and theoretical study of the mineral atacamite Cu_{2}Cl(OH)_{3}. Density-functional theory yields a Hamiltonian describing anisotropic sawtooth chains with weak 3D connections. Experimentally, we fully characterize the antiferromagnetically ordered state. Magnetic order shows a complex evolution with the magnetic field, while, starting at 31.5 T, we observe a plateaulike magnetization at about M_{sat}/2. Based on complementary theoretical approaches, we show that the latter is unrelated to the known magnetization plateau of a sawtooth chain. Instead, we provide evidence that the magnetization process in atacamite is a field-driven canting of a 3D network of weakly coupled sawtooth chains that form giant moments.Entities:
Year: 2021 PMID: 34110224 DOI: 10.1103/PhysRevLett.126.207201
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161