E. M. Sherokalova scite author profile

Measurements of the magnetic susceptibility, magnetization, electrical resistivity and neutron diffraction have been performed for the compound Fe(0.5)TiS(2) in which Fe atoms are intercalated between S-Ti-S tri-layers. It has been shown that this compound with a monoclinic crystal structure exhibits an antiferromagnetic (AF) ground state below the Néel temperature T(N) ≈ 140 K. Small deviations from the stoichiometry and some disordering effects caused by the additional low-temperature heat treatment do not affect substantially the AF state in Fe(0.5)TiS(2). According to neutron diffraction data the magnetic structure at 2 K is described by the propagation vector k = (1/4,0,1/4). The Fe magnetic moments with a value of (2.9 ± 0.1) μ(B) are directed at an angle of (78.5 ± 1.8)° to the layers. Application of the magnetic field at T < T(N) induces a metamagnetic phase transition to the ferromagnetic (F) state, which is accompanied by the large magnetoresistance effect (|Δρ/ρ| up to 27%). Below 100 K, the field-induced AF-F transition is found to be irreversible, as evidenced by magnetoresistance and neutron diffraction measurements. The magnetization reversal in the metastable F state is accompanied at low temperatures by substantial hysteresis (ΔH ~ 100 kOe) which is associated with the Ising character of Fe ions.

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Multiple magnetic states and irreversibilities in the FexTiS2 system

Selezneva

Баранов

Sherokalova

et al. 2021

Phys. Rev. B

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Ferromagnetism and structural transformations caused by Cr intercalation into TiTe₂

Баранов

Pleshchev

Selezneva

et al. 2009

J. Phys.: Condens. Matter

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Crystal structure investigations, electrical resistivity, and magnetic measurements have been performed for polycrystalline samples of intercalated compounds Cr(x)TiTe(2) with a Cr concentration up to x = 0.65. According to the room-temperature x-ray diffraction study of Cr(x)TiTe(2), the initial hexagonal crystal structure transforms to a monoclinic one with increasing Cr content up to x≥0.5 due to the ordering of Cr ions. The intercalation results in the change of the resistivity behavior in Cr(x)TiTe(2) from metal-like at x = 0 to insulator-like above x = 0.33 and leads to ferromagnetic ordering of Cr magnetic moments at x≥0.5. For the compound Cr(0.25)TiTe(2), structural transformations and anomalous resistivity behavior are observed around 230 K, which cannot be explained only by the order-disorder transition within the subsystem of intercalated Cr ions. Structural changes within Te-Ti-Te sandwiches associated with charge density wave instability are suggested to be involved in this phase transition as well.

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Magnetic properties of titanium diselenide intercalated with gadolinium

Sherokalova¹,

Pleschov²,

Баранов³

et al. 2007

Physics Letters A

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Crystal and magnetic structures of Cr1∕3NbSe2 from neutron diffraction

Губкин

Proskurina

Kousaka

et al. 2016

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Neutron diffraction measurements of the Cr intercalated niobium diselenide Cr 1=3 NbSe 2 together with magnetization measurements have revealed that this compound exhibits ferromagnetic ordering below T C ¼ 96 K unlike a chiral helimagnetic order observed in the sulfide compound Cr 1=3 NbS 2 . As derived from neutron diffraction data, the Cr magnetic moments l Cr ¼ 2.83 6 0.03 l B in Cr 1=3 NbSe 2 are aligned within basal plane. The discrepancy in the magnetic states of Cr 1=3 NbS 2 and Cr 1=3 NbSe 2 is ascribed to the difference in the preferential site occupation of Cr ions in crystal lattices. In Cr 1=3 NbSe 2 , the Cr ions are predominantly distributed over 2b Wyckoff site, which determines a centrosymmetric character of the crystal structure unlike Cr 1=3 NbS 2 , where the Cr ions are mainly located in 2c position and the crystal structure is non-centrosymmetric. V C 2016 AIP Publishing LLC.

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E. M. Sherokalova

Magnetic order, field-induced phase transitions and magnetoresistance in the intercalated compound Fe_0.5TiS₂

Multiple magnetic states and irreversibilities in the FexTiS2 system

Ferromagnetism and structural transformations caused by Cr intercalation into TiTe₂

Magnetic properties of titanium diselenide intercalated with gadolinium

Crystal and magnetic structures of Cr1∕3NbSe2 from neutron diffraction

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E. M. Sherokalova

Magnetic order, field-induced phase transitions and magnetoresistance in the intercalated compound Fe0.5TiS2

Multiple magnetic states and irreversibilities in the FexTiS2 system

Ferromagnetism and structural transformations caused by Cr intercalation into TiTe2

Magnetic properties of titanium diselenide intercalated with gadolinium

Crystal and magnetic structures of Cr1∕3NbSe2 from neutron diffraction

Contact Info

Product

Resources

About

Magnetic order, field-induced phase transitions and magnetoresistance in the intercalated compound Fe_0.5TiS₂

Ferromagnetism and structural transformations caused by Cr intercalation into TiTe₂