Topic
Metamagnetism
About: Metamagnetism is a research topic. Over the lifetime, 2023 publications have been published within this topic receiving 38108 citations.
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TL;DR: In this article, the magnetization of moderately Y substituted U 1− x Y x CoAl compounds under ambient and high pressures was studied and the results were discussed in the context of the expected pressure influence on the electronic structure.
5 citations
TL;DR: In this article, the magnetic properties and preliminary structural results of the molecule-based ferrimagnet with formula [Pr-Rad] 2 [Mn 2 {Cu(opba)} 3 ](DMSO) 3.
5 citations
TL;DR: The magnetization of the metamagnetic Co(Si1−xSex)2 system with 0 ⩽ x⩽ 0.2 has been measured under high pressure and high magnetic field.
Abstract: The magnetization of the metamagnetic Co(Si1−xSex)2 system with 0 ⩽ x ⩽ 0.2 has been measured under high pressure and high magnetic field. The magnetic phase diagram is determined in the T−x plane. The metamagnetic behavior under high pressure and high magnetic field and the magnetic phase diagram can be elucidated well with a theory of itinerant electron metamagnetism at finite temperatures.
5 citations
TL;DR: In this paper, the authors measured the high-field magnetization for a transuranium antiferromagnet NpRhGa 5 with two successive Antiferromagnetic transition temperatures of T N1 =36 and T N2 =32 K and an ordered moment of 0.96 µ B /Np.
Abstract: We have measured the high-field magnetization for a transuranium antiferromagnet NpRhGa 5 with two successive antiferromagnetic transition temperatures of T N1 =36 and T N2 =32 K and an ordered moment of 0.96 µ B /Np. For the magnetic field along the easy-axis of the [100] direction of the tetragonal structure, the magnetization indicates a metamagnetic transition at H c =26 T with a sharp step and saturates above H s =38 T, with 0.43 µ B /Np. On the other hand, the hard-axis magnetization for H ∥[001] increases linearly and saturates above H s =28 T, with 0.44 µ B /Np. These magnetization curves were discussed on the basis of reorientation and reduction of the magnetic moment.
5 citations
TL;DR: A ternary stannide UCo1.03Sn2 with a = 4.45±0.3859(4) A as lattice parameters has been prepared in this article.
5 citations