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Related papers: Nematic quantum disordered state in FeSe

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Elucidating the nature of the magnetism of a high-temperature superconductor is crucial for establishing its pairing mechanism. The parent compounds of the cuprate and iron-pnictide superconductors exhibit N\'eel and stripe magnetic order,…

Elucidating the microscopic origin of nematic order in iron-based superconducting materials is important because the interactions that drive nematic order may also mediate the Cooper pairing. Nematic order breaks fourfold rotational…

Since its discovery, iron-based superconductivity has been known to develop near an antiferromagnetic order, but this paradigm fails in the iron chalcogenide FeSe, whose single-layer version holds the record for the highest superconducting…

Strongly Correlated Electrons · Physics 2020-06-22 Wen-Jun Hu , Hsin-Hua Lai , Shou-Shu Gong , Rong Yu , Elbio Dagotto , Qimiao Si

Mechanism of unconventional superconductivity in FeSe has been intensely scrutinized recently because of a variety of exotic properties unprecedented for other iron-based superconductors. A central unanswered question concerns the origin of…

High-temperature superconductivity occurs near antiferromagnetic instabilities and nematic state. Debate remains on the origin of nematic order in FeSe and its relation with superconductivity. Here, we use transport, neutron scatter- ing…

The origin of the electronic nematicity in FeSe is one of the most important unresolved puzzles in the study of iron-based superconductors. In both spin- and orbital-nematic models, the intrinsic magnetic excitations at $\mathbf{Q}_1=(1,…

The interplay of orbital and spin degrees of freedom is the fundamental characteristic in numerous condensed matter phenomena, including high temperature superconductivity, quantum spin liquids, and topological semimetals. In iron-based…

We present a theoretical study of the dynamical spin susceptibility for the intriguing Fe-based superconductor FeSe, based on a tight-binding model developed to account for the temperature-dependent band structure in this system. The model…

Superconductivity · Physics 2016-01-05 A. Kreisel , Shantanu Mukherjee , P. J. Hirschfeld , Brian M. Andersen

The exotic normal state of iron chalcogenide superconductor FeSe, which exhibits vanishing magnetic order and possesses an electronic nematic order, triggered extensive explorations of its magnetic ground state. To understand its novel…

Strongly Correlated Electrons · Physics 2017-08-22 Shou-Shu Gong , W. Zhu , D. N. Sheng , Kun Yang

In common with other iron-based high temperature superconductors, FeSe exhibits a transition to a ``nematic'' phase below 90Kelvin in which the crystal rotation symmetry is spontaneously broken. However, the absence of strong low-frequency…

Strongly Correlated Electrons · Physics 2015-11-04 Fa Wang , Steven A. Kivelson , Dung-Hai Lee

To elucidate the magnetic structure and the origin of the nematicity in FeSe, we perform a high-pressure $^{77}$Se NMR study on FeSe single crystals. We find a suppression of the structural transition temperature with pressure up to about 2…

Superconductivity · Physics 2016-12-05 P. S. Wang , S. S. Sun , Y. Cui , W. H. Song , T. R. Li , Rong Yu , Hechang Lei , Weiqiang Yu

The electronic structure of the enigmatic iron-based superconductor FeSe has puzzled researchers since spectroscopic probes failed to observe the expected electron pocket at the $Y$ point in the 1-Fe Brillouin zone. It has been speculated…

Superconductivity · Physics 2021-02-16 Daniel Steffensen , Andreas Kreisel , P. J. Hirschfeld , Brian M. Andersen

Superconductivity in FeSe emerges from a nematic phase that breaks four-fold rotational symmetry in the iron plane. This phase may arise from orbital ordering, spin fluctuations, or hidden magnetic quadrupolar order. Here we use inelastic…

The sulfur-substituted FeSe, FeSe$_{1-x}$S$_{x} $, is one of the unique systems that provides an independent tunability of nematicity, antiferromagnetism and superconductivity under pressure ($p$). Recently Rana et al. [Phys. Rev. B 101,…

Superconductivity · Physics 2023-04-28 K. Rana , D. V. Ambika , S. L. Bud'ko , A. E. Böhmer , P. C. Canfield , Y. Furukawa

Strong interplay of spin and charge/orbital degrees of freedom is the fundamental characteristic of the iron-based superconductors (FeSCs), which leads to the emergence of a nematic state as a rule in the vicinity of the antiferromagnetic…

Strongly Correlated Electrons · Physics 2018-05-31 S. H. Baek , Dilip Bhoi , Woohyun Nam , Bumsung Lee , D. V. Efremov , B. Büchner , Kee Hoon Kim

Nematic phases, where electrons in a solid spontaneously break rotational symmetry while preserving the translational symmetry, exist in several families of unconventional superconductors [1, 2]. Although superconductivity mediated by…

The charge and spin dynamics of the structurally simplest iron-based superconductor, FeSe, may hold the key to understanding the physics of high temperature superconductors in general. Unlike the iron pnictides, FeSe lacks long range…

The nature of the superconducting state in the recently discovered Fe-based superconductors1-3 is the subject of intense scrutiny. Neutron scattering investigations have already elucidated a strong correlation between magnetism and…

A very fundamental and unconventional characteristic of superconductivity in iron-based materials is that it occurs in the vicinity of {\it two} other instabilities. Apart from a tendency towards magnetic order, these Fe-based systems have…

Superconductivity · Physics 2015-01-26 S. -H. Baek , D. V. Efremov , J. M. Ok , J. S. Kim , Jeroen van den Brink , B. Büchner

Nematicity and magnetism are two key features in Fe-based superconductors, and their interplay is one of the most important unsolved problems. In FeSe, the magnetic order is absent below the structural transition temperature $T_{str}=90$K,…

Strongly Correlated Electrons · Physics 2016-06-07 Youichi Yamakawa , Seiichiro Onari , Hiroshi Kontani
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