Add to ORKGSuperconductivity emerges in proximity to a nematic phase in most iron-based superconductors. It is therefore important to understand the impact of nematicity on the electronic structure. Orbital assignment and tracking across the nematic phase transition prove to be challenging due to the multiband nature of iron-based superconductors and twinning effects. Here, we report a detailed study of the electronic structure of fully detwinned FeSe across the nematic phase transition using angle-resolved photoemission spectroscopy. We clearly observe a nematicity-driven band reconstruction involving dxz, dyz, and dxy orbitals. The nematic energy scale between dxz and dyz bands reaches a maximum of 50 meV at the Brillouin zone corner. We are also ab...
Electronically driven nematic order is often considered as an essential ingredient of high-temperatu...
A large anisotropy in the electronic properties across a structural transition in several correlated...
FeSe is a fascinating superconducting material at the frontier of research in condensed matter physi...
Superconductivity emerges in proximity to a nematic phase in most iron-based superconductors. It is ...
The nematic state, where a system is translationally invariant but breaks rotational symmetry, has d...
The lifting of $d_{xz}$-$d_{yz}$ orbital degeneracy is often considered a hallmark of the nematic ph...
We present a comprehensive study of the evolution of the nematic electronic structure of FeSe using ...
The presence of dxz−dyz orbital ordering is often considered a hallmark of the nematic phase of Fe-b...
The presence of dxz−dyz orbital ordering is often considered a hallmark of the nematic phase of Fe-b...
The presence of dxz−dyz orbital ordering is often considered a hallmark of the nematic phase of Fe-b...
Electronically driven nematic order is often considered as an essential ingredient of high-temperatu...
The FeSe nematic phase has been the focus of recent research on iron-based superconductors (IBSs) du...
The FeSe nematic phase has been the focus of recent research on iron-based superconductors (IBSs) du...
FeSe is a fascinating superconducting material at the frontier of research in condensed matter physi...
A large anisotropy in the electronic properties across a structural transition in several correlated...
Electronically driven nematic order is often considered as an essential ingredient of high-temperatu...
A large anisotropy in the electronic properties across a structural transition in several correlated...
FeSe is a fascinating superconducting material at the frontier of research in condensed matter physi...
Superconductivity emerges in proximity to a nematic phase in most iron-based superconductors. It is ...
The nematic state, where a system is translationally invariant but breaks rotational symmetry, has d...
The lifting of $d_{xz}$-$d_{yz}$ orbital degeneracy is often considered a hallmark of the nematic ph...
We present a comprehensive study of the evolution of the nematic electronic structure of FeSe using ...
The presence of dxz−dyz orbital ordering is often considered a hallmark of the nematic phase of Fe-b...
The presence of dxz−dyz orbital ordering is often considered a hallmark of the nematic phase of Fe-b...
The presence of dxz−dyz orbital ordering is often considered a hallmark of the nematic phase of Fe-b...
Electronically driven nematic order is often considered as an essential ingredient of high-temperatu...
The FeSe nematic phase has been the focus of recent research on iron-based superconductors (IBSs) du...
The FeSe nematic phase has been the focus of recent research on iron-based superconductors (IBSs) du...
FeSe is a fascinating superconducting material at the frontier of research in condensed matter physi...
A large anisotropy in the electronic properties across a structural transition in several correlated...
Electronically driven nematic order is often considered as an essential ingredient of high-temperatu...
A large anisotropy in the electronic properties across a structural transition in several correlated...
FeSe is a fascinating superconducting material at the frontier of research in condensed matter physi...