Physical properties of antiferromagnetic single crystal GdIn 3

Silva, L.S.; Peixoto, E.B.; Mercena, S.G.; Coelho, A. A.; Meneses, C.T.; Duque, Juan G.

doi:10.1016/j.matlet.2016.03.128

Cited by 7 publications

(3 citation statements)

References 21 publications

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“…Such a symmetry restriction can be further released in the type-IV magnetic space group where T is violated but I and the nonsymmorphic TRS T = Tτ (the combination of T and a fractional translation operator τ that connects the black and white Bravais lattices) are kept [9,16]. For GdIn 3 , its magnetic moments align in a C-type AFM configuration at low temperature (T) [17], and the magnetic unit cell adopts a tetragonal lattice with the type IV magnetic space group Pc4/mbm [12]. Therefore, magnetic Dirac semimetal features emerge in this compound.…”

Section: Introductionmentioning

confidence: 99%

Magnetic properties and critical behaviors of the nodal-line semimetal candidate ErIn₃

Chen,

Tang,

Yin

et al. 2023

J. Phys.: Condens. Matter

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The AuCu3-type intermetallic compounds ReIn3 (Re = a rare earth ion) with type-IV magnetic space groups are predicted to show topologically nontrivial electronic states. Here, we grow ErIn3 single crystals, and study their magnetic properties and critical behaviors by means of the magnetic susceptibility, and magnetization isotherm measurements. Combining a detailed analysis of the magnetic susceptibility and isothermal magnetization, we find that this compound harbors a complicated magnetic phase diagram, and its magnetic moment arrangement appears not to simply follow the fashion as observed in the isostructural counterpart GdIn3 (it adopts a conventional type-C magnetic structure that belongs to type-IV magnetic space groups). A careful study of the magnetic properties around the antiferromagnetic-paramagnetic transition yields the critical exponents β = 0.309 (0.297), γ = 1.117 (1.038), and δ = 4.617 (4.454), indicating that the tricritical mean field model or the 3D Ising model works for ErIn3's magnetic behaviors and the presence of a long-range antiferromagnetic interaction therein. Besides, the exchange interaction distance J(r) ~ r-4.665 as well confirms a long-range magnetic coupling in ErIn3. Our results offer the clues that the magnetic structure varies from one member of ReIn3 family to another, and to confirm their electronic features in the antiferromagnetic phases further experimental and theoretical studies are still desired.

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Section: Introductionmentioning

confidence: 99%

Magnetic properties and critical behaviors of the nodal-line semimetal candidate ErIn₃

Chen,

Tang,

Yin

et al. 2023

J. Phys.: Condens. Matter

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“…[25][26][27] REIn 3 shows remarkable features, such as heavy fermion, antiferromagnetism, superconductivity at critical temperature or pressure, crystal field effects, Kondo effect, and multiaxial magnetic structures. [25,[27][28][29][30][31][32][33][34] CeIn 3 belongs to a heavy fermion and shows unique magnetic and electric properties such as antiferromagnetic order at 10 K, superconductivity under applied high pressure, and Kondo effect. [35] GdIn 3 orders antiferromagnetically at 45 K, which is the highest Néel temperature among the REIn 3 intermetallic compounds.…”

Section: Introductionmentioning

confidence: 99%

A review on 3d transition metal dilute magnetic REIn₃ intermetallic compounds

Guo¹,

Guo²,

Yin³

et al. 2022

Chinese Phys. B

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The dilute magnetic intermetallic compound (DMIC) is an extended study of the dilute magnetic semiconductor. The giant magnetic effect and room temperature ferromagnetism are induced by doping minor 3d transition metal into REIn3 intermetallic compound. Owing to the metallic processability, the REIn3-based DMIC might have the potential application as magnetoelectric device. In this review, the structural stability, magnetic and electric transport properties of REIn3 – x Tx (RE = rare earth; T = Co, Mn, Fe; x = 0–0.3) have been systematically summarized and analyzed.

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“…This compound orders antiferromagnetically with a Néel temperature of 45 K and undergoes a metamagnetic transition at a high field of 30 T (Kletowski, 1992; Kletowski et al , 2000). PrIn 3 has a single ground state in the crystalline field and shows nuclear rotation induced antiferromagnetic ordering at an extremely low temperature (0.14 mK) (He and Guo, 2016; Silva et al , 2016).…”

Section: Introductionmentioning

confidence: 99%

Structure stability and magnetic properties of RIn_3−xT_x (R = Gd, Pr,T = Co, Fe, Mn)

Han

Guo

2017

Powder Diffr.

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The syntheses and crystal structures and magnetic properties of novel RIn3−xTx (R = Gd，Pr；T = Fe，Co，Mn；x = 0–0.3) intermetallic compounds in rare earth-In-3d transition metal ternary system have been systematically investigated. It reveals that RIn3−xTx crystallizes in cubic AuCu3 type structure with a space group of Pm$\bar 3$m and Z = 1. The 1a and 3c crystal positions are occupied by R and In atoms, respectively. The 3d transition metals substitute partly for In and prefer to occupy the 3c site. The lattice parameters and unit cell volumes decrease with increasing the content of 3d transition metal in RIn3−xTx intermetallic compounds. The magnetic properties of RIn3−xTx are sensitive to T content. With increasing T content, GdIn3−xTx alloys show the paramagnetic, mixture of ferromagnetic and paramagnetic and ferromagnetic behavior. T doping into RIn3 induces the presence of ferromagnetic phase in GdIn3−xTx, which is totally different from those of the pure binary RIn3.

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Physical properties of antiferromagnetic single crystal GdIn 3

Cited by 7 publications

References 21 publications

Magnetic properties and critical behaviors of the nodal-line semimetal candidate ErIn₃

Magnetic properties and critical behaviors of the nodal-line semimetal candidate ErIn₃

A review on 3d transition metal dilute magnetic REIn₃ intermetallic compounds

Structure stability and magnetic properties of RIn_3−xT_x (R = Gd, Pr,T = Co, Fe, Mn)

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Physical properties of antiferromagnetic single crystal GdIn 3

Cited by 7 publications

References 21 publications

Magnetic properties and critical behaviors of the nodal-line semimetal candidate ErIn3

Magnetic properties and critical behaviors of the nodal-line semimetal candidate ErIn3

A review on 3d transition metal dilute magnetic REIn3 intermetallic compounds

Structure stability and magnetic properties of RIn3−xTx (R = Gd, Pr,T = Co, Fe, Mn)

Contact Info

Product

Resources

About

Magnetic properties and critical behaviors of the nodal-line semimetal candidate ErIn₃

Magnetic properties and critical behaviors of the nodal-line semimetal candidate ErIn₃

A review on 3d transition metal dilute magnetic REIn₃ intermetallic compounds

Structure stability and magnetic properties of RIn_3−xT_x (R = Gd, Pr,T = Co, Fe, Mn)