Magnetic structure elucidation of CaCu3Ti4O12 using neutron scattering
The perovskite-like compound, CaCu3Ti4O12, with its unique dielectric properties, has sparked scientific curiosity due to its divergence from conventional high dielectric constants in ferroelectric systems. Recent studies have primarily aimed to understand the mechanisms underpinning these properties, with specific focus on its magnetism and the role of anisotropy in determining its magnetic structure. Contradictory assertions concerning its magnetic structure, along with discrepancies in single crystal measurements and theoretical predictions, underscore the necessity for further detailed investigations. This proposal endeavors to comprehensively elucidate the compound's magnetic structure using the D10 four-circle diffractometer, and to reveal the temperature dependence of the specific magnetic reflections. The findings aim to complement another inelastic scattering experiment, merging insights on magnetic structure with spin wave dynamics to provide a holistic understanding of the material's magnetic interactions.
The data is currently only available to download if you are a member of the proposal team.
The recommended format for citing this dataset in a research publication is in the following format:
TUNG Yung Hsiang; Po-Chun Chang; HAMMOUDA Sabreen; KIBALIN Iurii; OULADDIAF Bachir; RESSOUCHE Eric and Yixi Su. (2024). Magnetic structure elucidation of CaCu3Ti4O12 using neutron scattering. Institut Laue-Langevin (ILL) doi:10.5291/ILL-DATA.5-41-1243
This data is not yet public
This data is not yet public
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