Crystal growth experiments in the systems Ni2MSbO6 (M = Sc, In) using chemical vapour transport reactions: Ni2InSbO6 and NiSb2O6 crystals in the millimetre range

Weil, Mat­thias; Mathieu, Roland; Nordblad, Per; Иванов, С. А.

doi:10.1002/crat.201300337

Cited by 16 publications

(15 citation statements)

References 33 publications

(29 reference statements)

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“…A handful of publications describe [10][11][12][13] investigations of polycrystalline NiSb 2 O 6 . This investigation adds to the current level of knowledge through magnetization, specific heat, and thermal expansion measurements of singlecrystalline NiSb 2 O 6 .…”

Section: Introductionmentioning

confidence: 99%

Local and long-range order and the influence of applied magnetic field on single-crystalline NiSb2O6

2017

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The magnetic and thermal properties of single-crystalline NiSb2O6 are reported. The Ni 2+ ions exhibit local magnetic order below ∼50 K followed by long-range antiferromagnetic order below TN = 6.7 K. Analysis of the magnetic susceptibility data using the one-dimensional Heisenberg model with spin S = 1 results in a magnetic exchange coupling J || /kB ∼ 26.0(1) K. TN is observed to either increase or decrease depending upon whether field is applied perpendicular or parallel to the magnetic moment alignment axis. A two-sublattice magnetic structure, with the axis of alignment alternating by 90 • between neighboring layers along the crystallographic c axis, is argued to result in two magnetic transition temperatures for certain magnetic field directions, that agrees well with theory. This leads to a highly anisotropic magnetocaloric effect.

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Section: Introductionmentioning

confidence: 99%

Local and long-range order and the influence of applied magnetic field on single-crystalline NiSb2O6

2017

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“…No frequency shifts more than 2 cm −1 were observed in angular-resolved measurements which rules out the presence of oblique modes observed for, example, in BiFeO 3 [5]. We suppose that the absence or smallness of the frequency shifts could be due to a small value of the electric polarization 6 µC cm −2 of Ni 2 InSbO 6 [31] in comparison with other polar systems where angular dispersion shifts were clearly observed [52,53].…”

Section: Lattice Dynamicsmentioning

confidence: 48%

“…Single crystals were grown by the chemical vapor transport method. The powder samples of Ni 2 InSbO 6 were synthesized by solid-phase reaction technique and put into evacuated tube with PtCl 2 as a transport agent [31]. The tube was placed for two weeks in horizontal furnace with temperatures of 1080 • C and 1000 • C for source and growth sides of the tube, respectively.…”

Section: Methodsmentioning

confidence: 99%

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Lattice and magnetic dynamics in the polar, chiral, and incommensurate antiferromagnet Ni2InSbO6

et al. 2019

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Complex systems with coexisting polarity, chirality and incommensurate magnetism are of great interest because they open new degrees of freedom in interaction between different subsystems and therefore they host a plethora of intriguing physical properties. Here we report on optical properties and lattice and spin dynamics of Ni 2 InSbO 6 single crystals studied with the use of polarized optical microscopy and micro-Raman spectroscopy in the temperature range 10-300 K. Ni 2 InSbO 6 crystallizes in a polar structure described by the noncentrosymmetric space group R3 and two types of structural domains were visualized due to natural optical activity of opposite chirality. Raman tensor elements of most A and E phonons along with their symmetry were determined. The manifestation of LO-TO splitting was observed for the A modes. By tracking the temperature dependencies of phonon frequencies the well pronounced spin-phonon interaction was observed for several modes below and above the Néel transition temperature TN = 76 K. In antiferromagnetic phase a wide excitation centred at 247 cm −1 was detected and assigned to the two-magnon mode and this value was used for estimating exchange parameters through linear spin-wave theory calculations. * mikhail.prosnikov@ru.nl; Currently at: High Field Magnet Laboratory (HFML-EMFL), Radboud University,

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“…Single crystals of Ni 2 InSbO 6 were grown by the chemical vapor transport method with use of PtCl 2 as the transport agent 21 . The c-plane was easily grown, resulting in plateshaped crystals.…”

Section: Methodsmentioning

confidence: 99%

Metamagnetic transitions and magnetoelectric responses in a chiral polar helimagnet Ni$_2$InSbO$_6$

Araki,

Sato,

Fujima

et al. 2019

Preprint

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Magnetic-field effect on the magnetic and electric properties in a chiral polar ordered corundum Ni 2 InSbO 6 has been investigated. Single-crystal soft x-ray and neutron diffraction measurements confirm long-wavelength magnetic modulation. The modulation direction tends to align along the magnetic field applied perpendicular to the polar axis, suggesting that the nearly proper-screw type helicoid should be formed below 77 K. The application of a high magnetic field causes a metamagnetic transition. In a magnetic field applied perpendicular to the polar axis, a helix-tocanted antiferromagnetic transition takes place through the intermediate soliton lattice type state.On the other hand, a magnetic field applied along the polar axis induces a first-order metamagnetic transition. These metamagnetic transitions accompany a change in the electric polarization along the polar axis.

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Crystal growth experiments in the systems Ni₂MSbO₆ (M = Sc, In) using chemical vapour transport reactions: Ni₂InSbO₆ and NiSb₂O₆ crystals in the millimetre range

Cited by 16 publications

References 33 publications

Local and long-range order and the influence of applied magnetic field on single-crystalline NiSb2O6

Local and long-range order and the influence of applied magnetic field on single-crystalline NiSb2O6

Lattice and magnetic dynamics in the polar, chiral, and incommensurate antiferromagnet Ni2InSbO6

Metamagnetic transitions and magnetoelectric responses in a chiral polar helimagnet Ni$_2$InSbO$_6$

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