On the mechanism behind the inverse melting in systems with competing interactions

Mendoza-Coto, Alejandro; Nicolao, Lucas; Díaz-Méndez, Rogelio

doi:10.1038/s41598-018-38465-8

Cited by 11 publications

(8 citation statements)

References 43 publications

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“…Following standard procedures the mean field free energy of the system in the continuum limit is given by 26,29…”

Section: Modelmentioning

confidence: 99%

“…Finally we choose the units of energy as the quantity Â(k 0 )/k 2 0 , which leads to the dimensionless free energy functional 26,29…”

Section: Modelmentioning

confidence: 99%

“…where prime symbols have been omitted to simplify the notation. This kind of mean field free energy have been extensively used as a starting point to construct the phase diagram of systems with competing interactions by looking at the local structure of the order parameter 26 . However, when the phases need to be distinguished by its symmetries, the desired phase diagram should contain information about the translational and rotational order of the different textures the magnetic system develops.…”

Section: Modelmentioning

confidence: 99%

“…Another intriguing issue is the effect produced on the topological phases due to the presence of reentrance in the phase diagrams. Systems like the dipolar ferromagnet can present strong reentrances in the H-T plane, depending on the relative strength of the dipolar and the ferromagnetic interactions 26 . For systems with weak enough repulsive interaction the H-T phase diagram develops an inverse melting in a certain range of the external field.…”

Section: Introductionmentioning

confidence: 99%

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Topological phase diagrams of the frustrated Ising ferromagnet

Mendoza-Coto,

de Oliveira,

Nicolao

et al. 2019

Preprint

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The emergence of complex modulated structures in the magnetization pattern of thin films is a wellestablished experimental phenomenology caused by the frustrating effects of competing interactions. Using a coarse-grained version of the Ising ferromagnet with dipolar interactions, we develop a method that use the information from the microscopic Hamiltonian to predict the specific topology of these phases. This is done with a combination of the mean-field phase diagrams obtained by minimization of the free energy functional, and the classical theory of melting. In this frame we are able to clearly distinguish orientational and translational symmetry and discriminate between the long and short range ordering of the system for all temperatures and fields. We observe that the reentrance developed by the H-T phase diagrams in the regime of weak dipolar interactions is directly related with the appearance of anomalous topological transitions. These results motivate the realization of new experiments on magnetic thin films allowing to determine the connection between the reentrance and the behavior of the topological phases in real materials.

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“…Following standard procedures the mean field free energy of the system in the continuum limit is given by 26,29…”

Section: Modelmentioning

confidence: 99%

“…Finally we choose the units of energy as the quantity Â(k 0 )/k 2 0 , which leads to the dimensionless free energy functional 26,29…”

Section: Modelmentioning

confidence: 99%

Section: Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Topological phase diagrams of the frustrated Ising ferromagnet

Mendoza-Coto,

de Oliveira,

Nicolao

et al. 2019

Preprint

Self Cite

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“…temperature, field, pressure, stoichiometry) is continuously varied. Reentrance has been found in spin glasses [17,18], liquid mixtures [19,20], protein thermodynamics [21], liquid crystals [22,23], bilayer graphene [24], superconductors [25], modulated phases [26,27] and even in black hole thermodynamics [28]. Despite its ubiquity, reentrance is typically unexpected and its explanation in terms of entropic contributions to the free-energy from the underlying microscopic degrees of freedom is usually subtle.…”

mentioning

confidence: 99%

Understanding Reentrance in Frustrated Magnets: the Case of the Er$_2$Sn$_2$O$_7$ Pyrochlore

Yahne,

Pereira,

Jaubert

et al. 2021

Preprint

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Reentrance, the return of a system from an ordered phase to a previously encountered less-ordered one as a controlled parameter is continuously varied, is a recurring theme found in disparate physical systems, from condensed matter to black holes. While diverse in its many incarnations and generally unsuspected, the cause of reentrance at the microscopic level is often not investigated thoroughly. Here, through detailed characterization and theoretical modeling, we uncover the microscopic mechanism behind reentrance in the strongly frustrated pyrochlore antiferromagnet Er2Sn2O7. Taking advantage of the recent advance in rare earth stannate single crystal synthesis, we use heat capacity measurements to expose that Er2Sn2O7 exhibits multiple instances of reentrance in its magnetic field B vs. temperature T phase diagram for magnetic fields along three cubic high symmetry directions. Through classical Monte Carlo simulations, mean field theory and classical linear spin-wave expansions, we argue that the origins of the multiple occurrences of reentrance observed in Er2Sn2O7 are linked to soft modes. Depending on the field direction, these arise either from a direct T = 0 competition between the field-evolved ground states, or from a field-induced enhancement of the competition with a distinct zero-field antiferromagnetic phase. In both scenarios, the phase competition enhances thermal fluctuations which entropically stabilize a specific ordered phase. This results in an increased transition temperature for certain field values and thus the reentrant behavior. Our work represents a detailed examination into the mechanisms responsible for reentrance in a frustrated magnet and may serve as a template for the interpretation of reentrant phenomena in other physical systems.

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Stripes polymorphism and water-like anomaly in hard core-soft corona dumbbells

Nogueira,

Bordin

2023

Journal of Molecular Liquids

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On the mechanism behind the inverse melting in systems with competing interactions

Cited by 11 publications

References 43 publications

Topological phase diagrams of the frustrated Ising ferromagnet

Topological phase diagrams of the frustrated Ising ferromagnet

Understanding Reentrance in Frustrated Magnets: the Case of the Er$_2$Sn$_2$O$_7$ Pyrochlore

Stripes polymorphism and water-like anomaly in hard core-soft corona dumbbells

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