Young-Joon Song scite author profile

A LiFeAs single crystal with T onset c ∼19.7 K was grown successfully in a sealed tungsten crucible using the Bridgeman method. The electrical resistivity experiments revealed a ratio of room temperature to residual resistivity (RRR) of approximately 46 and 18 for the in-plane and out-of plane directions. The estimated anisotropic resistivity, γρ=ρc/ρ ab , was approximately 3.3 at T onset c . The upper critical fields had large H ab c2 and H c c2 values of 83.4 T and 72.5 T, respectively, and an anisotropy ratio is γH =H ab c2 /H c c2 ∼1.15. The high upper critical field value and small anisotropy highlight the potential use of LiFeAs in a variety of applications. The calculated critical current density (Jc) from the M -H loop is approximately 10 3 A/cm 2

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Publisher’s Note: Nodeless two-gap superconducting state in single crystals of the stoichiometric iron pnictide LiFeAs [Phys. Rev. B83, 100502(R) (2011)]

Kim¹,

Tanatar²,

Song³

et al. 2011

Phys. Rev. B

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Influence of selected alloying elements on the stability of magnesium dihydride for hydrogen storage applications: A first-principles investigation

2004

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Structural and correlation effects in the itinerant insulating antiferromagnetic perovskite NaOsO3

et al. 2013

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The orthorhombic perovskite NaOsO3 undergoes a continuous metal-insulator transition (MIT), accompanied by antiferromagnetic (AFM) order at TN = 410 K, suggested to be an example of the rare Slater (itinerant) MIT. We study this system using ab initio and related methods, focusing on the origin and nature of magnetic ordering and the MIT. The rotation and tilting of OsO6 octahedra in the GdFeO3 structure result in moderate narrowing the band width of the t2g manifold, but sufficient to induce flattening of bands and AFM order within the local spin density approximation (LSDA), where it remains metallic but with a deep pseudogap. Including on-site Coulomb repulsion U , at Uc ≈ 2 eV a MIT occurs only in the AFM state. Effects of spin-orbit coupling (SOC) on the band structure seem minor as expected for a half-filled t 3 2g shell, but SOC doubles the critical value Uc necessary to open a gap and also leads to large magnetocrystalline energy differences in spite of normal orbital moments no greater than 0.1µB . Our results are consistent with a Slater MIT driven by magnetic order, induced by a combination of structurally-induced band narrowing and moderate Coulomb repulsion, with SOC necessary for a full picture. Strong p − d hybridization reduces the moment, and when bootstrapped by the reduced Hund's rule coupling (proportional to the moment) gives a calculated moment of ∼1 µB, consistent with the observed moment and only a third of the formal d 3 value. We raise and discuss one important question: since this AFM ordering is at q=0 (in the 20 atom cell) where nesting is a moot issue, what is the microscopic driving force for ordering and the accompanying MIT?

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Young-Joon Song

Anisotropic upper critical field and possible Fulde-Ferrel-Larkin-Ovchinnikov state in the stoichiometric pnictide superconductor LiFeAs

Synthesis, anisotropy, and superconducting properties of LiFeAs single crystal

Publisher’s Note: Nodeless two-gap superconducting state in single crystals of the stoichiometric iron pnictide LiFeAs [Phys. Rev. B83, 100502(R) (2011)]

Influence of selected alloying elements on the stability of magnesium dihydride for hydrogen storage applications: A first-principles investigation

Structural and correlation effects in the itinerant insulating antiferromagnetic perovskite NaOsO3

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