A tight-binding model for RNiO3 predicts a non-magnetic insulating phase with charge and orbital order induced by Jahn-Teller distortions, showing magnetism is not required for the metal-insulator transition.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
citation-role summary
background 1
citation-polarity summary
fields
cond-mat.str-el 3years
2026 3roles
background 1polarities
background 1representative citing papers
Charge self-consistent eDMFT with uniform U=6 eV for metals and U=10 eV for insulators yields spectral functions in excellent agreement with photoemission experiments across ABO3 compounds (A=Ca,Sr,La; B=V-Ni).
Polarized light induces orbital polarization and Jahn-Teller instability in RNiO3 by making d-d transitions orbital-selective and suppressing effective Hund's coupling.
citing papers explorer
-
Non-magnetic insulating phase induced by Jahn-Teller effect in RNiO$_3$
A tight-binding model for RNiO3 predicts a non-magnetic insulating phase with charge and orbital order induced by Jahn-Teller distortions, showing magnetism is not required for the metal-insulator transition.
-
Systematic dynamical mean-field theory study of 3d perovskite oxides with uniform Coulomb interactions
Charge self-consistent eDMFT with uniform U=6 eV for metals and U=10 eV for insulators yields spectral functions in excellent agreement with photoemission experiments across ABO3 compounds (A=Ca,Sr,La; B=V-Ni).
-
Photoinduced orbital polarization and Jahn-Teller effect in RNiO$_3$
Polarized light induces orbital polarization and Jahn-Teller instability in RNiO3 by making d-d transitions orbital-selective and suppressing effective Hund's coupling.