High-Tc Conventional Superconductivity in Clathrate Hydrides: What can we learn from Electronic Structure?
ORAL
Abstract
The current record-holder for superconductivity is a lanthanum superhydride (LaH10), which crystallizes in a clathrate structure, in which hydrogen forms a dense lattice of interconnected cages. The highest Tc reported is close to room temperature (265 K). Tc's comparable, or even higher than this, have been predicted to occur in other clathrate hydrides with chemical formula XH6 and XH10, with X=Sc,Y,Mg,Ca.
In this contribution, using ab-initio Migdal-Eliashberg theory, we study the superconducting properties of this new broad class of superconductors, and trace them back to their unique electronic structure.
In this contribution, using ab-initio Migdal-Eliashberg theory, we study the superconducting properties of this new broad class of superconductors, and trace them back to their unique electronic structure.
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Presenters
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Lilia Boeri
Sapienza University of Rome
Authors
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Lilia Boeri
Sapienza University of Rome
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Christoph Heil
Institute for Theoretical and Computational Physics, Graz Universtity of Technology
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Simone Di Cataldo
Institute for Theoretical and Computational Physics, Graz Universtity of Technology
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Giovanni Bachelet
Sapienza University of Rome