Superconducting Materials - National MagLab · Superconducting Materials Z. Fisk, UC Irvine...
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Superconducting Materials
Z. Fisk, UC Irvine Gor’kov Memorial Symposium Tallahassee January 13, 2018
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Where are the superconductors?
• What was learned from heavy Fermion superconductivity?
• What are similarities to other classes of superconductors?
• Prevalence of metallic compounds satisfying valence rules
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heavy Fermion superconductors
• all appear near magnetic quantum critical point
• antiferromagnetism can co-exist with superconductivity
• no co-existence when superconductivity occurs at higher temperature than magnetic order
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Phase diagram of CeRhIn5 (Park and Thompson)
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Onuki et al. J. Alloys Cpds. 408-412, 27 (2006)
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Stock et al. Phys. Rev. Lett. 100, 087001 (2008)
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Conclusions
• Heavy Fermion metals arise from a dense lattice of Kondo centers in which Kondo compensation competes with magnetic order
• Coherence is synonymous with the formation of a Fermi surface incorporating the f-electron(s)
• Superconductivity can gap out part of the magnetic fluctuation spectrum and provide a competitive route for loss of entropy at low temperature
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pnictides
Wolfgang Jeitschko
2006 Hirano; 2008 Jorend
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Superconductivity vs Bonding dP-P ~ 3.7Å BaRh2P2 Tc = 1.0K BaIr2P2 Tc = 2.1K dP-P ~ 2.25K CaRh2P2 no Tc
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cuprates
La1.84Sr0.16CuO4 Tc = 40K
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“valence” materials
• LaFeOP, BaFe2As2
• La2CuO4
• MgB2
• HfNCl:Li
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BCS-type A15 superconductivity
• Peierls-type lattice distortion above Tc • strong coupling of soft lattice mode to
conduction electrons • no lattice distortion when Tc occurs first
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Batterman and Barrett Phys. Rev. 145, 296 (1966)
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Schilling V3Si: TMartensitic / Tc
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Unreasonable ineffectiveness of materials smarts for raising Tc
• Cuprates • Pnictides • BCS
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Where they are
• Heavy Fermions: near magnetic order • high Tc: near “charge” order • BCS: near lattice instability
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Highest Tc found in proximity to competing “localized” phase
• holds for BCS, heavy Fermions, organics, cuprates and pnictides
• the competing phase, afm in heavy Fermions, terminates where it intersects the Tcboundary and does not extend into the superconducting phase
• “localized”: in BCS, lattice distorted; in heavy Fermions, local moment magnetism; in cuprates, the psuedo-gap phase.
• electronics highly non-adiabatic • superconductivity runs in structures • superconductivity is where physics becomes chemistry
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What is the chemistry?
• Superconductivity solves a problem involving the electronics of a material
• Superconductivity is diagnostic of this problem
• Superconductivity is fundamentally a chemistry problem