Nature Search

A ferroelectric-like structural transition in a metal

Although metals cannot be ferroelectric in the strict sense of the term, it has long been predicted that they can undergo structural transitions that share similarities with ferroelectricity. LiOsO₃ is now shown to be an experimental realization of such a ferroelectric-like metal.

Youguo Shi
Yanfeng Guo
Andrew T. Boothroyd
Research22 Sept 2013
Nature Materials

Volume: 12, P: 1024-1027
Disorder-induced universality and scaling in hole-doped iron-based superconductors

Disorder emerges as a hidden tuning parameter in hole-doped iron-based superconductors, influencing phase transitions and magnetic properties. Here, the authors use neutron and x-ray diffraction to reveal a universal phase diagram, highlighting the role of atomic disorder in stabilizing magnetic phases and offering insights into the interplay of structural and magnetic parameters.

Omar Chmaissem
Ryan Stadel
Stephan Rosenkranz
ResearchOpen Access10 Jul 2025
Communications Materials

Volume: 6, P: 1-9
Magnetic frustration, short-range correlations and the role of the paramagnetic Fermi surface of PdCrO₂

David Billington
David Ernsting
Hiroshi Takatsu
ResearchOpen Access24 Jul 2015
Scientific Reports

Volume: 5, P: 1-11
Evidence for a three-dimensional quantum spin liquid in PbCuTe₂O₆

Quantum spin liquids have magnetic moments that do not form magnetic order even as the temperature approaches zero, leading to the dominance of quantum fluctuations. Chillal et al. present evidence that the hyper-hyperkagome lattice of PbCuTe₂O₆ hosts a three-dimensional quantum spin liquid.

Shravani Chillal
Yasir Iqbal
Bella Lake
ResearchOpen Access11 May 2020
Nature Communications

Volume: 11, P: 1-9
Spin-induced multiferroicity in the binary perovskite manganite Mn₂O₃

Multiferroic binary oxides with the perovskite structure have been very rare. Here, Cong et al. report magnetically-driven ferroelectricity and a large magnetoelectric effect in a binary perovskite compound Mn₂O₃ at low temperatures.

Junzhuang Cong
Kun Zhai
Young Sun
ResearchOpen Access31 Jul 2018
Nature Communications

Volume: 9, P: 1-7
Spontaneous reversal of spin chirality and competing phases in the topological magnet EuAl₄

The reversal of spin chirality in the absence of any externally applied field would substantially broaden the use of chiral magnets for applications in spintronic devices. In this manuscript the authors demonstrate the spontaneous reversal of spin chirality in the topological magnet EuAl4 using resonant elastic x-ray scattering.

Anuradha M. Vibhakar
Dmitry D. Khalyavin
Alessandro Bombardi
ResearchOpen Access30 Sept 2024
Communications Physics

Volume: 7, P: 1-8
Absence of magnetic order in RuO₂: insights from μSR spectroscopy and neutron diffraction

Philipp Keßler
Laura Garcia-Gassull
Simon Moser
ResearchOpen Access05 Oct 2024
npj Spintronics

Volume: 2, P: 1-8
Suppressed-moment 2-k order in the canonical frustrated antiferromagnet Gd₂Ti₂O₇

Joseph A. M. Paddison
Georg Ehlers
J. Ross Stewart
ResearchOpen Access09 Dec 2021
npj Quantum Materials

Volume: 6, P: 1-8
Multiple magnetic orders in LaFeAs_1-xP_xO uncover universality of iron-pnictide superconductors

The Fe-based superconductors are an ideal family of materials to investigate the mechanisms of unconventional superconductivity due to the co-existence of both magnetic and superconducting phases. Here, the authors experimentally demonstrate the presence of three magnetic phases in LaFeAs_1-xP_xO, which can be tuned as a function of phosphorus content, and discuss how the results connect to wider trends in magnetic and superconducting orders of the Fe-based superconductors.

Ryan Stadel
Dmitry D. Khalyavin
Omar Chmaissem
ResearchOpen Access14 Jun 2022
Communications Physics

Volume: 5, P: 1-7

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