# Pressure-induced enhancement of two-dimensionality in LaO1-xFxBi(Se/S)2   superconductors

**Authors:** V. Svitlyk, A. Krzton-Maziopa, M. Mezouar

arXiv: 1908.05961 · 2019-11-06

## TL;DR

Applying high pressure to LaO1-xFxBi(Se/S)2 superconductors induces structural changes that enhance their two-dimensionality, leading to improved superconducting properties despite initial decreases in transition temperature.

## Contribution

This study reveals how high pressure induces structural transformations that increase two-dimensionality and superconducting performance in layered BiCh2-based superconductors.

## Key findings

- High pressure causes a transition from metallic to semi-metallic states.
- Structural transformation enhances two-dimensionality and superconductivity.
- Similar effects observed in related LaO1-xFxBiS2 phase.

## Abstract

Application of high pressure (HP) induces evolution from metallic to semi-metallic state in the layered superconducting LaO1-xFxBiSe2 phase, as concluded from ab initio calculations based on experimental P-dependent structural data. These changes in conduction properties are associated with a reported decrease in the superconducting transition temperature, Tc. However, further increase in pressure induces structural transformation in LaO1-xFxBiSe2 which results in a strong enhancement of its two-dimensionality with a related improvement in superconducting performance. In addition, the HP structural anisotropy induces a loss of long-range order correlations along the stacking direction of the LaO/F and BiSe2 layers yielding formation of stacking faults. Similar but even more pronounced structural transition was observed in the related LaO1-xFxBiS2 phase which is also accompanied by an increase in Tc. This demonstrates that enhancement of two-dimensionality in layered superconducting systems acts in favor of their superconducting performance.

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Source: https://tomesphere.com/paper/1908.05961