Exotic magnetization curves in classical square-kagomé spin lattices

Schmidt, Heinz-Jürgen; Richter, Johannes

doi:10.1088/1751-8121/ad3ca5

J. Phys. A: Math. Theor.

2024

DOI: 10.1088/1751-8121/ad3ca5

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Exotic magnetization curves in classical square-kagomé spin lattices

Heinz-Jürgen Schmidt,

Johannes Richter

Abstract: Classical spin systems with non-coplanar ground states typically exhibit nonlinear magnetization curves characterized by kinks and jumps. Our article briefly summarizes the most important related analytical results. In a comprehensive case study, we then address AF-square kagom'{e} and AF/FM-square kagom'{e} spin lattices equipped with additional cross-plaquette interactions. It is known that these systems have non-coplanar ground states that assume a cuboctahedral structure in the absence of a magnetic field.… Show more

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2024

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The magnetization process of classical Heisenberg magnets with non-coplanar cuboc ground states

Richter,

Schmidt,

Schnack

2024

J. Phys.: Condens. Matter

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We consider a classical Heisenberg model onthe kagom'{e} and the square kagom'{e} lattice, where at zero magnetic fieldnon-coplanar cuboctahedral ground states with twelve sublatticesexist if suitable exchange couplings are introduced between the other neighbors.Such 'cuboc ground states' are remarkable because they allow for chiral ordering.For these models, we discuss the magnetization processin an applied magnetic field $H$ by both numerical and analytical methods.We find some universal properties that are present in all models.The magnetization curve $M(H)$ usually contains only non-linear componentsand there is at least one magnetic field driven phase transition.Details of the $M(H)$ curve such as the number and characteristics(continuous or discontinuous) of the phase transitions depend on the latticeand the details of the exchange between the further neighbors.Typical features of these magnetization processes can alreadybe derived for a paradigmatic 12-spin model that we define in this work.

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The magnetization process of classical Heisenberg magnets with non-coplanar cuboc ground states

Richter,

Schmidt,

Schnack

2024

J. Phys.: Condens. Matter

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Exotic magnetization curves in classical square-kagomé spin lattices

Cited by 1 publication

References 45 publications

The magnetization process of classical Heisenberg magnets with non-coplanar cuboc ground states

The magnetization process of classical Heisenberg magnets with non-coplanar cuboc ground states

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