Add to ORKGThe superconductor iron selenide (FeSe) is of intense interest owing to its unusual nonmagnetic nematic state and potential for high-temperature superconductivity. But its Cooper pairing mechanism has not been determined. We used Bogoliubov quasiparticle interference imaging to determine the Fermi surface geometry of the electronic bands surrounding the Γ = (0, 0) and X = (π/aFe, 0) points of FeSe and to measure the corresponding superconducting energy gaps. We show that both gaps are extremely anisotropic but nodeless and that they exhibit gap maxima oriented orthogonally in momentum space. Moreover, by implementing a novel technique, we demonstrate that these gaps have opposite sign with respect to each other. This complex gap configurati...
The emergence of nematic electronic states which break the symmetry of the underlying lattice is a r...
The interplay between electronic orders and superconductivity is central to the physics of unconvent...
We present results of a detailed theoretical study of the electronic, magnetic, and structural prope...
For movie S1, see http://www.physik.uni-leipzig.de/~kreisel/oscp/S1.mp4, for movie S2, see http://ww...
FeSe is the focus of intense research interest because of its unusual non-magnetic nematic state and...
The iron-based superconductors are characterized by multiple-orbital physics where all the five Fe 3...
The orbital multiplicity in multiband superconductors yields orbital differentiation in normal-state...
High temperature superconductivity is typically found in the vicinity of a magnetically ordered phas...
The iron-based superconductors are characterized by multiple-orbital physics where all the five Fe 3...
We investigated the electron-pairing mechanism in an iron-based superconductor, iron selenide (FeSe)...
We use high-resolution angle-resolved photoemission spectroscopy to map the three-dimensional moment...
FeSe is an intriguing iron-based superconductor. It presents an unusual nematic state without magnet...
FeSe exhibits a novel ground state in which superconductivity coexists with a nematic order in the a...
The iron-based superconductor FeSe has attracted much recent attention because of its simple crystal...
LR acknowledges funding from the Royal Commission for the Exhibition 1851.The nature and origin of e...
The emergence of nematic electronic states which break the symmetry of the underlying lattice is a r...
The interplay between electronic orders and superconductivity is central to the physics of unconvent...
We present results of a detailed theoretical study of the electronic, magnetic, and structural prope...
For movie S1, see http://www.physik.uni-leipzig.de/~kreisel/oscp/S1.mp4, for movie S2, see http://ww...
FeSe is the focus of intense research interest because of its unusual non-magnetic nematic state and...
The iron-based superconductors are characterized by multiple-orbital physics where all the five Fe 3...
The orbital multiplicity in multiband superconductors yields orbital differentiation in normal-state...
High temperature superconductivity is typically found in the vicinity of a magnetically ordered phas...
The iron-based superconductors are characterized by multiple-orbital physics where all the five Fe 3...
We investigated the electron-pairing mechanism in an iron-based superconductor, iron selenide (FeSe)...
We use high-resolution angle-resolved photoemission spectroscopy to map the three-dimensional moment...
FeSe is an intriguing iron-based superconductor. It presents an unusual nematic state without magnet...
FeSe exhibits a novel ground state in which superconductivity coexists with a nematic order in the a...
The iron-based superconductor FeSe has attracted much recent attention because of its simple crystal...
LR acknowledges funding from the Royal Commission for the Exhibition 1851.The nature and origin of e...
The emergence of nematic electronic states which break the symmetry of the underlying lattice is a r...
The interplay between electronic orders and superconductivity is central to the physics of unconvent...
We present results of a detailed theoretical study of the electronic, magnetic, and structural prope...