Designing a Spin-one Mott Insulator: Complete Charge Transfer in Nickelate-Titanate Heterostructures

Hanghui Chen; Chris Marianetti; Andrew Millis

Designing a Spin-one Mott Insulator: Complete Charge Transfer in Nickelate-Titanate Heterostructures

ORAL

Abstract

$Ab$ $initio$ calculations are performed to show that complete charge transfer may occur from the TiO$_2$ to the NiO$_2$ layers in (LaTiO$_3$)$_1$/(LaNiO$_3$)$_1$ superlattices. Although the two component materials are an $S = 1/2$ Mott insulator and a weakly correlated paramagnetic metal, strong correlation effects on Ni $d$ states can render the superlattice an unusual $S = 1$ charge transfer insulator, with the Ti-$d$ band empty, the Ni in the $d^8$ state and the oxygen bands filled. The charge transfer gap is set by the Ti/Ni $d$ level splitting. Magnetic, photoemission and x-ray scattering experiments are suggested to test the theory. The results show that heterostructuring can lead to very high levels of electron doping of oxides.

^*This research was supported by the Army Research Office under ARO-Ph 56032 and DOE-ER-046169.

March 18, 2013, 8:00 AM – March 18, 2013, 8:12 AM

Authors

Hanghui Chen
- Columbia University
- Department of Applied Physics and Center for Research on Interface Structures and Phenomena (CRISP), Yale University
- Department of Physics, Columbia University
Chris Marianetti
- Columbia University
- Columbia University in the City of New York
- Department of Applied Physics and Applied Mathematics, Columbia University
- Department of Applied Physics and Applied Math
Andrew Millis
- Dept of Physics, Columbia University
- Department of Physics, Columbia University
- Columbia University