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Iron pnictides and chalcogenides: a new paradigm for superconductivity

Abstract:
Superconductivity is a remarkably widespread phenomenon that is observed in most metals cooled to very low temperatures. The ubiquity of such conventional superconductors, and the wide range of associated critical temperatures, is readily understood in terms of the well-known Bardeen–Cooper–Schrieffer theory. Occasionally, however, unconventional superconductors are found, such as the iron-based materials, which extend and defy this understanding in unexpected ways. In the case of the iron-based superconductors, this includes the different ways in which the presence of multiple atomic orbitals can manifest in unconventional superconductivity, giving rise to a rich landscape of gap structures that share the same dominant pairing mechanism. In addition, these materials have also led to insights into the unusual metallic state governed by the Hund’s interaction, the control and mechanisms of electronic nematicity, the impact of magnetic fluctuations and quantum criticality, and the importance of topology in correlated states. Over the fourteen years since their discovery, iron-based superconductors have proven to be a testing ground for the development of novel experimental tools and theoretical approaches, both of which have extensively influenced the wider field of quantum materials.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher copy:
10.1038/s41586-021-04073-2

Authors


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Institution:
University of Oxford
Division:
MPLS
Department:
Physics
Sub department:
Condensed Matter Physics
Role:
Author
ORCID:
0000-0002-6732-5964


Publisher:
Nature Research
Journal:
Nature More from this journal
Volume:
601
Pages:
35-44
Publication date:
2022-01-05
Acceptance date:
2021-09-29
DOI:
EISSN:
1476-4687
ISSN:
0028-0836


Language:
English
Keywords:
Pubs id:
1225729
Local pid:
pubs:1225729
Deposit date:
2021-12-17

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