Electronic Structure and Fermiology of PuCoGa5
Abstract
By using a relativistic linear augmented-plane-wave method, we clarify energy band structures and Fermi surfaces of recently discovered plutonium-based superconductor PuCoGa5. We find several cylindrical sheets of Fermi surfaces with large volume, very similar to CeMIn5 (M=Ir and Co) isostructural with PuCoGa5, in spite of different f-electron numbers between Ce3+ and Pu3+ ions. The similarity is understood by a concept of electron-hole conversion in a tight binding model constructed based on the j-j coupling scheme. Based on the present results, we provide a possible scenario to explain why a transition temperature is so high as 18.5K in PuCoGa5.
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