Exotic s-wave superconductivity in alkali-doped fullerides.
TL;DR: In this article, the electron-phonon coupling and electron-electron interactions are used to realize an unconventional s-wave superconductivity in the alkali-doped fullerides.
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Abstract: Alkali-doped fullerides (A3C60 with A = K, Rb, Cs) show a surprising phase diagram, in which a high transition-temperature (Tc) s-wave superconducting state emerges next to a Mott insulating phase as a function of the lattice spacing. This is in contrast with the common belief that Mott physics and phonon-driven s-wave superconductivity are incompatible, raising a fundamental question on the mechanism of the high-Tc superconductivity. This article reviews recent ab initio calculations, which have succeeded in reproducing comprehensively the experimental phase diagram with high accuracy and elucidated an unusual cooperation between the electron-phonon coupling and the electron-electron interactions leading to Mott localization to realize an unconventional s-wave superconductivity in the alkali-doped fullerides. A driving force behind the exotic physics is unusual intramolecular interactions, characterized by the coexistence of a strongly repulsive Coulomb interaction and a small effectively negative exchange interaction. This is realized by a subtle energy balance between the coupling with the Jahn-Teller phonons and Hund's coupling within the C60 molecule. The unusual form of the interaction leads to a formation of pairs of up- and down-spin electrons on the molecules, which enables the s-wave pairing. The emergent superconductivity crucially relies on the presence of the Jahn-Teller phonons, but surprisingly benefits from the strong correlations because the correlations suppress the kinetic energy of the electrons and help the formation of the electron pairs, in agreement with previous model calculations. This confirms that the alkali-doped fullerides are a new type of unconventional superconductors, where the unusual synergy between the phonons and Coulomb interactions drives the high-Tc superconductivity.
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References
Nuclear magnetic resonance of C-60 and fulleride superconductors
TL;DR: The structural, electronic, and superconducting properties of the alkali-doped solid materials have been subjects of great controversy as discussed by the authors, and although the NMR data certainly provide evidence for unusual static and dynamic structural properties, there is little evidence for a strong correlation in the normal state or nonphononic mechanisms of superconductivity.
Spin frustration and magnetic ordering in the S = 1 2 molecular antiferromagnet fcc − Cs 3 C 60
Yuichi Kasahara,Yuichi Takeuchi,Tetsuaki Itou,Ruth H. Zadik,Yasuhiro Takabayashi,Alexey Y. Ganin,Alexey Y. Ganin,Denis Arčon,Denis Arčon,Matthew J. Rosseinsky,Kosmas Prassides,Kosmas Prassides,Yoshihiro Iwasa,Yoshihiro Iwasa +13 more
TL;DR: In this paper, the authors investigated the low-temperature magnetic state of face-centered-cubic (fcc) antiferromagnet, a Mott insulator and the first molecular analog of a geometrically frustrated Heisenberg fcc magnet with S = 1/2$ spins.
Electron-Phonon Interaction and Raman Linewidth in Superconducting Fullerides
V. L. Aksenov,V. V. Kabanov +1 more
TL;DR: In this article, a microscopic theory of the interaction between long-wave molecular phonons and electrons in fullerides in the presence of disorder is proposed, and the results are in good agreement with photoemission experiments.
Mott localization in the correlated superconductor Cs 3 C 60 resulting from the molecular Jahn-Teller effect
Katalin Kamarás,Gyöngyi Klupp,Péter Matus,Alexey Y. Ganin,Alec McLennan,Matthew J. Rosseinsky,Yasuhiro Takabayashi,Martin T. McDonald,Kosmas Prassides +8 more
- 05 Apr 2013
TL;DR: In this article, the authors show evidence from infrared spectroscopy for the dynamic Jahn-Teller distortion and conclude that the electronic and magnetic solid-state properties of the insulating state are controlled by molecular phenomena.