Magnetic Transitions in Rb2MnCl4·2H2O, Rb2MnBr4·2H2O and Cs2MnBr4·2H2O

K Carrander; L. A. Hoel

doi:10.1088/0031-8949/4/3/011

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Magnetic Transitions in Rb₂MnCl₄·2H₂O, Rb₂MnBr₄·2H₂O and Cs₂MnBr₄·2H₂O

K Carrander L. A. Hoel

Year: 1971 Journal: Physica Scripta Vol: 4 (3)Pages: 135-136 Publisher: IOP Publishing

DOI: 10.1088/0031-8949/4/3/011

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Abstract

Rb2MnCl4·2H2O, Cs2MnBr4·2H2O and Rb2MnBr·2H2O are three antiferromagnetic substances of triclinic structure with Néel temperatures 2.24, 2.84 and 3.33 K respectively. Magnetization measurements have been carried out at 1.4 K in pulsed magnetic fields up to 10 T (100 kG). Exchange and anisotropy fields are calculated from the spin flop and the saturation fields.

Keywords:

Antiferromagnetism Magnetization Triclinic crystal system Materials science Condensed matter physics Anisotropy Saturation (graph theory) Spin (aerodynamics) Magnetic field Nuclear magnetic resonance Physics Crystallography Crystal structure Chemistry Optics

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Solid-state spectroscopy and crystallography

Physical Sciences → Materials Science → Materials Chemistry

Luminescence Properties of Advanced Materials

Physical Sciences → Materials Science → Materials Chemistry

Glass properties and applications

Physical Sciences → Materials Science → Ceramics and Composites

Magnetic Transitions in Rb₂MnCl₄·2H₂O, Rb₂MnBr₄·2H₂O and Cs₂MnBr₄·2H₂O

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