Predictive Capability for Strongly Correlated Systems: Mott Transition in MnO, Multielectron Magnetic Moments, and Dynamics Effects in Correlated Materials

doi 10.2172/1063633
Full Text
Abstract

Available in full text

Date
Authors
Publisher

Office of Scientific and Technical Information (OSTI)

Related search

Short-Time Spin Dynamics in Strongly Correlated Few-Fermion Systems

Physical Review Letters
AstronomyPhysics
2012English

Competing Ground States of Strongly Correlated Bosons in the Harper-Hofstadter-Mott Model

Physical Review A
OpticsAtomicMolecular Physics,
2016English

Scale-Invariant Magnetic Textures in the Strongly Correlated Oxide NdNiO3

Nature Communications
AstronomyGeneticsMolecular BiologyBiochemistryChemistryPhysics
2019English

STIR: Novel Electronic States by Gating Strongly Correlated Materials

2016English

Quantum Ripples in Strongly Correlated Metals

Physical Review Letters
AstronomyPhysics
2010English

First-Order Isostructural Mott Transition in Highly Compressed MnO

Physical Review Letters
AstronomyPhysics
2005English

Strongly Correlated Oxides for Energy Harvesting

Science and Technology of Advanced Materials
Materials Science
2018English

Many-Body Effects on the Capacitance of Multilayers Made From Strongly Correlated Materials

Physical Review B
2012English

Spin-Incoherent Behavior in the Ground State of Strongly Correlated Systems

Physical Review Letters
AstronomyPhysics
2011English

Amanote Research

Note-taking for researchers

Follow Amanote

© 2025 Amaplex Software S.P.R.L. All rights reserved.

Privacy PolicyRefund Policy