# Possible coexistence of double-Q magnetic order and chequerboard charge   order in the re-entrant tetragonal phase of Ba0.76K0.24Fe2As2

**Authors:** Jianqiang Hou, Chang-woo Cho, Junying Shen, Pok Man Tam, I-Hsuan Kao,, Mang Hei Gordon Lee, Peter Adelmann, Thomas Wolf, Rolf Lortz

arXiv: 1705.06436 · 2017-08-23

## TL;DR

This study explores the coexistence of double-Q magnetic order and chequerboard charge order in the re-entrant tetragonal phase of Ba0.76K0.24Fe2As2, revealing complex magnetic and charge interactions in this iron-based superconductor.

## Contribution

It provides evidence for out-of-plane double-Q magnetic order and suggests a secondary chequerboard charge order that preserves C4 symmetry in the re-entrant phase.

## Key findings

- Reversible magnetization confirms out-of-plane double-Q magnetic order.
- Nernst coefficient remains largely unchanged across the phase transition.
- Possible formation of chequerboard charge order without C4 symmetry breaking.

## Abstract

We investigate the re-entrant tetragonal phase in the iron-based superconductor Ba0 .76K0.24Fe2As2 by DC magnetization and thermoelectrical measurements. The reversible magnetization confirms by a thermodynamic method that the spin alignment in the re-entrant C4 phase is out-of-plane, in agreement with an itinerant double-Q magnetic order [Allred et al., Nat. Phys. 12, 493 (2016)]. The Nernst coefficient shows the typical unusually large negative value in the stripe-type spin density wave (SDW) state owing to the Fermi surface reconstruction associated with SDW and nematic order. At the transition into the re-entrant C4 tetragonal phase it hardly changes, which could indicate that instead of a complete vanishing of the associated charge order, the spin reorientation could trigger a redistribution of the charges to form a secondary charge order, e.g. in form of a chequerboard-like pattern that no longer breaks the rotational C4 symmetry.

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Source: https://tomesphere.com/paper/1705.06436