The Unexpected Properties of Alkali Metal Iron Selenide Superconductors

TL;DR

This paper reviews the surprising properties of alkali metal iron selenide superconductors, highlighting their differences from traditional iron-based superconductors and discussing recent experimental and theoretical findings that challenge previous understanding.

Contribution

It provides a comprehensive review of experimental and theoretical research on alkali metal iron selenides, emphasizing their unique insulating, magnetic, and electronic properties that differ from earlier models.

Findings

Absence of hole pockets at the Fermi level in these materials

Presence of insulating and antiferromagnetic ground states with large magnetic moments

Superconductivity observed in single-layer FeSe

Abstract

The iron-based superconductors that contain FeAs layers as the fundamental building block in the crystal structures have been rationalized in the past using ideas based on the Fermi Surface nesting of hole and electron pockets when in the presence of weak Hubbard $U$ interactions. This approach seemed appropriate considering the small values of the magnetic moments in the parent compounds and the clear evidence based on photoemission experiments of the required electron and hole pockets. However, recent results in the context of alkali metal iron selenides, with generic chemical composition $A_x$Fe$_{2-y}$Se$_2$ ($A$ = alkali element), have drastically challenged those previous ideas since at particular compositions $y$ the low-temperature ground states are insulating and display antiferromagnetic magnetic order with large iron magnetic moments. Moreover, angle resolved photoemission studies have revealed the absence of hole pockets at the Fermi level in these materials. The present status of this exciting area of research, with the potential to alter conceptually our understanding of the iron-based superconductors, is here reviewed, covering both experimental and theoretical investigations. Other recent related developments are also briefly reviewed, such as the study of selenide two-leg ladders and the discovery of superconductivity in a single layer of FeSe. The conceptual issues considered established for the alkali metal iron selenides, as well as the several issues that still require further work, are discussed in the text.