Squeezing the periodicity of Néel-type magnetic modulations by enhanced Dzyaloshinskii-Moriya interaction of 4d electrons

Butykai, Ádám; Geirhos, Korbinian; Szaller, D.; Kiss, L. F.; Balogh, László; Azhar, Maria; Garst, Markus; DeBeer‐Schmitt, Lisa; Waki, Takeshi; Tabata, Yoshikazu; Nakamura, Hiroyuki; Kézsmárki, I.; Bordács, S.

doi:10.1038/s41535-022-00432-y

Cited by 12 publications

(13 citation statements)

References 55 publications

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“…Bordacs et al [29] detected a Néel-type skyrmion lattice state in GaV 4 Se 8 , which was corroborated by Fujima et al [9] to exhibit a spininduced polarization similar to GaV 4 S 8 . [31] In case of GaMo 4 S 8 , the existence of a skyrmion lattice [35,80,84] as well as magnetoelectric coupling [79] has been proposed, but not experimentally verified yet.…”

Section: Spin-driven Polarizationmentioning

confidence: 99%

“…For

{GaV}_{4} {normalS}_{8}

it was shown by Ruff et al [ 7 ] that all magnetic phases emerging at low temperatures, namely, a cycloidal, a Néel‐type skyrmion lattice, and a field‐polarized ferromagnetic phase, carry different spin‐induced ferroelectric polarizations, as shown in Figure 7. The other rhombohedral lacunar spinels,

{GaV}_{4} {Se}_{8}

and

{GaMo}_{4} {normalS}_{8}

, also undergo magnetic transitions at

T_{normalC}

= 18 K [ 29 ] and

T_{normalC}

= 20 K, [ 35 ] respectively. They were also found to exhibit complex magnetic phase diagrams.…”

Section: Ferro‐ and Magnetoelectric Polarizationmentioning

confidence: 99%

“…In finite magnetic fields, the cycloidal order can be transformed to a Néel‐type skyrmion lattice (SkL) state and subsequently to a field‐polarized ferromagnetic (FM) state. [ 27,29,35 ] Importantly, the ferroelectric and the magnetic transitions are decoupled from each other, as shown in Figure 1b,c. The full list of transition temperatures is shown in Table 1 .…”

Section: Introductionmentioning

confidence: 95%

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Optical, Dielectric, and Magnetoelectric Properties of Ferroelectric and Antiferroelectric Lacunar Spinels

Geirhos

Reschke

Ghara

et al. 2021

Physica Status Solidi (b)

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Lacunar spinels with a chemical formula of AM4X8 form a populous family of narrow‐gap semiconductors, which offer a fertile ground to explore correlation and quantum phenomena, including transition between Mott and spin‐orbit insulator states, ferro/antiferroelectricity driven by cluster Jahn‐Teller effect, and magnetoelectric response of magnetic skyrmions with polar dressing. The electronic and magnetic properties of lacunar spinels are determined to a large extent by their molecular‐crystal‐like structure. The interplay of electronic correlations with spin‐orbit and vibronic couplings leads to a complex electronic structure already on the single‐cluster level, which—together with weaker intercluster interactions—gives rise to a plethora of unconventional correlated states. This review primarily focuses on recent progresses in the field of optical, dielectric, and magnetoelectric properties on lacunar spinels. After introducing the main structural aspects, lattice dynamics and electronic structure of these compounds are discussed on the basis of optical spectroscopy measurements. Dielectric and polarization studies reveal the main characteristics of their low‐temperature ferro‐ or antiferroelectric phases as well as orbital fluctuations in their high‐temperature cubic state. Strong couplings between spin, lattice, and orbital degrees of freedom are manifested in singlet formation upon magnetostructural transitions, the emergence of various multiferroic phases, and exotic domain‐wall functionalities.

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Section: Spin-driven Polarizationmentioning

confidence: 99%

“…For

{GaV}_{4} {normalS}_{8}

{GaV}_{4} {Se}_{8}

and

{GaMo}_{4} {normalS}_{8}

, also undergo magnetic transitions at

T_{normalC}

= 18 K [ 29 ] and

T_{normalC}

= 20 K, [ 35 ] respectively. They were also found to exhibit complex magnetic phase diagrams.…”

Section: Ferro‐ and Magnetoelectric Polarizationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 95%

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Optical, Dielectric, and Magnetoelectric Properties of Ferroelectric and Antiferroelectric Lacunar Spinels

Geirhos

Reschke

Ghara

et al. 2021

Physica Status Solidi (b)

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“…5 Only recent experimental studies disclosed the evidence of skyrmions in GaMo 4 Se 8 28,29 and in GaMo 4 S 8 . 30 Reports on GaMo 4 S 8 , both on its synthesis as well as on the characterisation of physical properties, remain scarce comparatively with the other skyrmion-hosting lacunar spinels. GaMo 4 S 8 is known to be a Mott insulator with ferromagnetic and cycloidal spin ordering below T C = 19 K. 4,30,31 The Jahn–Teller transition occurs at 47 K, reported by previous heat capacity measurements and dielectric relaxation studies.…”

Section: Introductionmentioning

confidence: 99%

“…30 Reports on GaMo 4 S 8 , both on its synthesis as well as on the characterisation of physical properties, remain scarce comparatively with the other skyrmion-hosting lacunar spinels. GaMo 4 S 8 is known to be a Mott insulator with ferromagnetic and cycloidal spin ordering below T C = 19 K. 4,30,31 The Jahn–Teller transition occurs at 47 K, reported by previous heat capacity measurements and dielectric relaxation studies. 31 Some differences in the structural distortions of GaMo 4 S 8 can be found in comparison to those reported for GaV 4 S 8 , namely the rhombohedral angle α in the distorted phase is smaller than 60° in the V compound, and larger than 60° in the Mo compound, which inverts the order of the a 1 and e orbitals resulting from the orbital splitting by the crystal field.…”

Section: Introductionmentioning

confidence: 99%

Evidence of a cluster spin-glass phase in the skyrmion-hosting GaMo₄S₈ compound

et al. 2022

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Dzyaloshinskii-Moriya interactions, Néel skyrmions and V4 magnetic clusters in multiferroic lacunar spinel GaV4S8

Borisov,

Salehi,

Pereiro

et al. 2024

npj Comput Mater

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Using ab initio density functional theory with static mean-field correlations, we calculate the Heisenberg and Dzyaloshinskii-Moriya interactions (DMI) for an atomistic spin Hamiltonian for the lacunar spinel, GaV4S8. The parameters describing these interactions are used in atomistic spin dynamics and micromagnetic simulations. The magnetic properties of the lacunar spinel GaV4S8, a material well-known from experiment to host magnetic skyrmions of Néel character, are simulated with these ab initio calculated parameters. The Dzyaloshinskii-Moriya contribution to the micromagnetic energy is a sum of two Lifshitz invariants, supporting the formation of Néel skyrmions and its symmetry agrees with what is usually expected for C3ν-symmetric systems. There are several conclusions one may draw from this work. One concerns the quantum nature of the magnetism, where we show that the precise magnetic state of the V4 cluster is crucial for understanding quantitatively the magnetic phase diagram. In particular, we demonstrate that a distributed-moment state of each V4 cluster explains well a variety of properties of GaV4S8, such as the band gap, observed Curie temperature and especially the stability of Néel skyrmions in the experimentally relevant temperature and magnetic-field range. In addition, we find that electronic correlations change visibly the calculated value of the DMI.

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Squeezing the periodicity of Néel-type magnetic modulations by enhanced Dzyaloshinskii-Moriya interaction of 4d electrons

Cited by 12 publications

References 55 publications

Optical, Dielectric, and Magnetoelectric Properties of Ferroelectric and Antiferroelectric Lacunar Spinels

Optical, Dielectric, and Magnetoelectric Properties of Ferroelectric and Antiferroelectric Lacunar Spinels

Evidence of a cluster spin-glass phase in the skyrmion-hosting GaMo₄S₈ compound

Dzyaloshinskii-Moriya interactions, Néel skyrmions and V4 magnetic clusters in multiferroic lacunar spinel GaV4S8

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Squeezing the periodicity of Néel-type magnetic modulations by enhanced Dzyaloshinskii-Moriya interaction of 4d electrons

Cited by 12 publications

References 55 publications

Optical, Dielectric, and Magnetoelectric Properties of Ferroelectric and Antiferroelectric Lacunar Spinels

Optical, Dielectric, and Magnetoelectric Properties of Ferroelectric and Antiferroelectric Lacunar Spinels

Evidence of a cluster spin-glass phase in the skyrmion-hosting GaMo4S8 compound

Dzyaloshinskii-Moriya interactions, Néel skyrmions and V4 magnetic clusters in multiferroic lacunar spinel GaV4S8

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Evidence of a cluster spin-glass phase in the skyrmion-hosting GaMo₄S₈ compound