The nature of itineracy in CoV<sub>2</sub>O<sub>4</sub>: a first-principles study

Kaur, Ramandeep; Maitra, T.; Nautiyal, Tashi

doi:10.1088/0953-8984/26/4/045505

Cited by 24 publications

(23 citation statements)

References 34 publications

(74 reference statements)

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“…The characteristic feature of this OO transition is the accompanied cubic to tetragonal structural transition involving a compressed tetragonal distortion (c < a). This OO transition also results in a non-collinear ferrimagnetic (NCF) ordering below 53 K where the V 3+ moments are canted from the [111] direction; (ii) CoV 2 O 4 [19][20][21] exhibits two magnetic transitions at 150 K and 75 K which are CF and NCF transitions, respectively. This sample also shows no OO transition due to the fact that it is approaching the itinerant electron behavior with the small V-V distance.…”

Section: Introductionmentioning

confidence: 99%

Evolution of the magnetic and structural properties ofFe1−xCoxV2O4

Sinclair

Cao

et al. 2015

Phys. Rev. B

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The magnetic and structural properties of single crystal Fe1−xCoxV2O4 samples have been investigated by performing specific heat, susceptibility, neutron diffraction, and X-ray diffraction measurements. As the orbital-active Fe 2+ ions with larger ionic size are gradually substituted by the orbital-inactive Co 2+ ions with smaller ionic size, the system approaches the itinerant electron limit with decreasing V-V distance. Then, various factors such as the Jahn-Teller distortion and the spin-orbital coupling of the Fe 2+ ions on the A sites and the orbital ordering and electronic itinerancy of the V 3+ ions on the B sites compete with each other to produce a complex magnetic and structural phase diagram. This phase diagram is compared to those of Fe1−xMnxV2O4 and Mn1−xCoxV2O4 to emphasize several distinct features.

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Section: Introductionmentioning

confidence: 99%

Evolution of the magnetic and structural properties ofFe1−xCoxV2O4

Sinclair

Cao

et al. 2015

Phys. Rev. B

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“…We note here again that, for Co 1+x V 2−x O 4 , the trigonal crystal field splitting of the V 3d orbitals is present even in the cubic crystal structure [ Fig. 3(d)] [ 33,36,40 ]. Thus the elastic anomaly at T 1 only in C t (T ) suggests that the nearly-itinerant doubly-degenerate e ′ g orbitals [ Fig.…”

Section: B Ferrimagnetic Phase (T < Tc)mentioning

confidence: 89%

“…In Co 1+x V 2−x O 4 , the O octahedra surrounding the V atoms are trigonally distorted from the regular octahedral shape even in the cubic crystal structure [ 33,36,40 ]. Additionally, for the V 3d orbitals, the small trigonal crystal field splits the triply-degenerate t 2g orbitals into a localized a 1g orbital and delocalized doubly-degenerate e ′ g orbitals [ Fig.…”

Section: Fig 1: (Color Online) (*) Transition Temperatures Tc T1mentioning

confidence: 99%

“…3(d)]. Thus it is expected that the delocalized e ′ g orbitals are responsible for the nearly-itinerant character of the V 3d electrons [ 36 ]. The e ′ g orbitals are also expected to be responsible for the elastic anomalies in the paramagnetic phase [ Fig.…”

Section: Fig 1: (Color Online) (*) Transition Temperatures Tc T1mentioning

confidence: 99%

“…For AV 2 O 4 (A = Zn, Mg, Cd, Mn, and Fe), the structural phase transition is considered to arise from a longrange ordering of the V t 2g orbitals, where the lowering of the lattice symmetry should result in the release of frustration (magnetic ordering). The orbital order to explain the structural and magnetic orders for AV 2 O 4 is still under debate both theoretically [ [25][26][27][28][29][30][31] and experimentally [ 4,7,12,15 ]; it is considered to be driven by the competition among Jahn-Teller coupling, Kugel- ) is a unique vanadate spinel with its highest electrical conductivity among the insulating or semiconducting AV 2 O 4 , which is considered to arise from the nearly-itinerant character of the V 3d electrons [ [33][34][35][36][37][38][39]. CoV 2 O 4 exhibits a ferrimagnetic order below T C ∼ 150 K, which is similar to AV 2 O 4 with magnetic A = Mn (T C = 57 K) and Fe (T C = 110 K).…”

Section: Introductionmentioning

confidence: 99%

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Variety of elastic anomalies in an orbital-active nearly itinerant cobalt vanadate spinel

et al. 2017

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We perform ultrasound velocity measurements on a single crystal of nearly-metallic spinel Co1.21V1.79O4 which exhibits a ferrimagnetic phase transition at TC ∼ 165 K. The experiments reveal a variety of elastic anomalies in not only the paramagnetic phase above TC but also the ferrimagnetic phase below TC, which should be driven by the nearly-itinerant character of the orbitally-degenerate V 3d electrons. In the paramagnetic phase above TC , the elastic moduli exhibit elastic-mode-dependent unusual temperature variations, suggesting the existence of a dynamic spin-cluster state. Furthermore, above TC, the sensitive magnetic-field response of the elastic moduli suggests that, with the negative magnetoresistance, the magnetic-field-enhanced nearly-itinerant character of the V 3d electrons emerges from the spin-cluster state. This should be triggered by the inter-V-site interactions acting on the orbitally-degenerate 3d electrons. In the ferrimagnetic phase below TC , the elastic moduli exhibit distinct anomalies at T1 ∼ 95 K and T2 ∼ 50 K, with a sign change of the magnetoresistance at T1 (positive below T1) and an enhancement of the positive magnetoresistance below T2, respectively. These observations below TC suggest the successive occurrence of an orbital glassy order at T1 and a structural phase transition at T2, where the rather localized character of the V 3d electrons evolves below T1 and is further enhanced below T2.

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Magnetic and Magnetodielectric Properties of Epitaxial Iron Vanadate Thin Films

Zhou

Takahashi

Zhou

et al. 2016

Adv Elect Materials

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We report on the magnetic and magnetodielectric behavior of epitaxial (001) transition metal oxide spinel iron vanadate (Fe 1+x V 2-x O 4 -FVO) thin films grown on (001) SrTiO 3 substrates by pulsed laser deposition. X-ray absorption spectroscopy (XAS) studies confirm the trivalent and nominally divalent nature of V and Fe ions, respectively, whilst an excess of Fe 3+ ions was also found. Aberrationcorrected cross-sectional scanning transmission electron microscopy analysis suggests that the excess Fe 3+ may be accommodated through Fe 3 O 4 stacking faults along the {111} planes. Temperaturedependent X-ray magnetic circular dichroism (XMCD) spectra revealed an anti-parallel alignment of spins between the Fe 2+ and V 3+ cations. M-H loops acquired at 10 K, well below the non-collinear ferromagnetic phase transition temperature, show magnetic anisotropy and point to the existence of two distinct phases with different coercive fields. Visual evidence for magnetic domains and their switching is given by magnetic force microscopy, which finds a switching field of ~ 3 T in agreement with the M-H loops. Magnetodielectric measurements for a Pd/FVO/Nb:STO heterostructure revealed a weak hysteresis in the magneto-capacitance loops at 10 K, thus confirming magneto-dielectric coupling. Detailed temperature and frequency dependent dielectric studies found that Maxwell-Wagner-type relaxation dominates capacitance behaviour above ~ 40 K due to a FVO/Nb:SrTiO 3 Schottky interface.Received: ((will be filled in by the editorial staff))Revised: ((will be filled in by the editorial staff))

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The nature of itineracy in CoV₂O₄: a first-principles study

Cited by 24 publications

References 34 publications

Evolution of the magnetic and structural properties ofFe1−xCoxV2O4

Evolution of the magnetic and structural properties ofFe1−xCoxV2O4

Variety of elastic anomalies in an orbital-active nearly itinerant cobalt vanadate spinel

Magnetic and Magnetodielectric Properties of Epitaxial Iron Vanadate Thin Films

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The nature of itineracy in CoV2O4: a first-principles study

Cited by 24 publications

References 34 publications

Evolution of the magnetic and structural properties ofFe1−xCoxV2O4

Evolution of the magnetic and structural properties ofFe1−xCoxV2O4

Variety of elastic anomalies in an orbital-active nearly itinerant cobalt vanadate spinel

Magnetic and Magnetodielectric Properties of Epitaxial Iron Vanadate Thin Films

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The nature of itineracy in CoV₂O₄: a first-principles study