Fermi-surface topology of the iron pnictide LaFe$_2$P$_2$

A. D. Bianchi; A. Polyakov; B. Pr\'evost; C. Capan; G. Seyfarth; H. Rosner; I. Sheikin; J. Wosnitza; M. Bartkowiak; M. C\^ot\'e

arxiv: 1406.5642 · v1 · pith:GRWAZSPTnew · submitted 2014-06-21 · ❄️ cond-mat.supr-con

Fermi-surface topology of the iron pnictide LaFe₂P₂

S. Blackburn , B. Pr\'evost , M. Bartkowiak , O. Ignatchik , A. Polyakov , T. F\"orster , M. C\^ot\'e , G. Seyfarth

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C. Capan Z. Fisk R. G. Goodrich I. Sheikin H. Rosner A. D. Bianchi J. Wosnitza

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classification ❄️ cond-mat.supr-con

keywords fermi-surfacelafedhvaironpnictideabsencealphenangular-dependent

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We report on a comprehensive de Haas--van Alphen (dHvA) study of the iron pnictide LaFe$_2$P$_2$. Our extensive density-functional band-structure calculations can well explain the measured angular-dependent dHvA frequencies. As salient feature, we observe only one quasi-two-dimensional Fermi-surface sheet, i.e., a hole-like Fermi-surface cylinder around $\Gamma$, essential for $s_\pm$ pairing, is missing. In spite of considerable mass enhancements due to many-body effects, LaFe$_2$P$_2$ shows no superconductivity. This is likely caused by the absence of any nesting between electron and hole bands.

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Fermi-surface topology of the iron pnictide LaFe₂P₂

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