Metamagnetism

About: Metamagnetism is a research topic. Over the lifetime, 2023 publications have been published within this topic receiving 38108 citations.

Itinerant metamagnetism and ferromagnetism in the M(Co1-xAIx)2 (M Y and Lu) systems: The effect of unit cell volume

Abstract: The concentration dependence of the metamagnetic transition fields from the paramagnetic to the ferromagnetic state was analyzed together with the features of the onset of ferromagnetic ordering; a magnetic (x-T) phase diagram of this system is also plotted. The principal factor affecting the evolution of the magnetic properties of YCo 2 and LuCo 2 under Al substitution of Co is the change in d-electron concentration, and not the growth of the unit cell parameter

Low‐Temperature Magnetic Susceptibilities of the Hydrated Nickel Nitrates

Abstract: The zero‐field magnetic susceptibilities of Ni(NO3)22H2O, Ni(NO3)24H2O, and Ni(NO3)26H2O have been measured in the liquid‐hydrogen and liquid‐helium ranges. The dihydrate is obtained by evaporation of a solution at 105°C.1 Its powder susceptibility has a large, sharp, peak at 4.20°K, where it reaches 0.74 cgs/mole, then drops down to 0.2 cgs/mole below 2°K. When measured along the a axis, the susceptibility of monoclinic single crystals of the dihydrate shows a similar peak. It reaches 1.5 cgs/mole, but drops to vanishing values at lower temperatures. The susceptibility in the bc plane reaches only 0.3 cgs/mole, and is nearly isotropic. It drops little below 4.20°K. This behavior is similar2‐5 to that of FeCl2 or FeCO3, and suggests the existence of two magnetic sublattices, with strong ferromagnetic interactions within each sublattice, and weaker antiferromagnetic interactions between one sublattice and the other (metamagnetism). Direct evidence for such a layer structure is also provided by a recent x‐r...