English

Enhancing superconductivity in A3C60 fullerides

Strongly Correlated Electrons 2016-11-01 v1 Superconductivity

Abstract

Motivated by the recent experimental report of a possible light-induced superconductivity in A3C60 at high temperature [Mitrano et al., Nature 530, 451 (2016)], we investigate theoretical mechanisms for enhanced superconductivity in A3C60 fullerenes. We find that an `interaction imbalance' corresponding to a smaller value of the Coulomb matrix element for two of the molecular orbitals in comparison to the third one, efficiently enhances superconductivity. Furthermore, we perform first-principle calculations of the changes in the electronic structure and in the screened Coulomb matrix elements of A3C60, brought in by the deformation associated with the pumped T1u intra-molecular mode. We find that an interaction imbalance is indeed induced, with a favorable sign and magnitude for superconductivity enhancement. The physical mechanism responsible for this enhancement consists in a stabilisation of the intra-molecular states containing a singlet pair, while preserving the orbital fluctuations allowing for a coherent inter-orbital delocalization of the pair. Other perturbations have also been considered and found to be detrimental to superconductivity. The light-induced deformation and ensuing interaction imbalance is shown to bring superconductivity further into the strong-coupling regime.

Keywords

Cite

@article{arxiv.1606.05796,
  title  = {Enhancing superconductivity in A3C60 fullerides},
  author = {Minjae Kim and Yusuke Nomura and Michel Ferrero and Priyanka Seth and Olivier Parcollet and Antoine Georges},
  journal= {arXiv preprint arXiv:1606.05796},
  year   = {2016}
}

Comments

14 pages, 14 figures

R2 v1 2026-06-22T14:28:35.589Z