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Metal-insulator transition in Sr2IrO4 investigated by ARPES - Véronique Brouet

Laboratoire de Physique des Solides, Orsay

Au Parc Club - Bât 18/20 - Orsay

Sr2IrO4 is a layered perovskite, structurally very similar to cuprates. Iridium is a 5d transition metal, for which much smaller electronic correlations are a priori expected compared to cuprates, due to the much larger spatial extension of 5d orbitals compared to 3d ones. Nevertheless, Sr2IrO4 is an insulator, despite having an odd number of electrons in 5d band, and orders antiferromagnetically below 240 K. This is believed to be the consequence of the large spin-orbit coupling, characteristic of this heavy element. It reshapes the electronic structure to form a non-degenerate half-filled band at the Fermi level, which is much more sensitive to electronic correlations than the original electronic structure. This electronic structure is also very analogous to that of cuprates, so that theoreticians have proposed that doped compounds could be superconducting. Although no bulk systems have been found superconducting up to now, signs of superconductivity may have been observed recently in surface doped systems of Sr2IrO4 1.
We have doped Sr2IrO4 through Sr/La and Ir/Rh substitutions to approach the metal-insulator transition. We will present Angle-Resolved Photoemission (ARPES) studies of the evolution of the electronic structure with doping2. We observe shifts of the Fermi level inside the gap and transfer of spectral weight across the gap that we will discuss.

1. Y. K. Kim, N. H. Sung, J. D. Denlinger and B. J. Kim, Observation of a d-wave gap in electron-doped Sr2IrO4, Nature Physics 12, 37 (2016)

2. V. Brouet et al. Transfer of spectral weight across the gap of Sr2IrO4 induced by La doping, Physical Review B 92, 081117(R) (2015)


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