First experimental observation of the ferromagnetic Kondo effect in a single molecular spin system consisting of a triangulene dimer with spin-1 and spin-1/2 units.
Haule , author S
3 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 3representative citing papers
Low-order hybridization expansions fail in multi-orbital systems because the least correlated orbital suppresses correlation features across all orbitals through spurious couplings generated by the truncation.
DFT+DMFT calculations on americium show partial 5f delocalization under pressure with valence mixing and link high-pressure phase stability to symmetry-lowering Peierls distortions.
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Observation of the Ferromagnetic Kondo Effect
First experimental observation of the ferromagnetic Kondo effect in a single molecular spin system consisting of a triangulene dimer with spin-1 and spin-1/2 units.
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Validity and Limits of Low Order Hybridization Expansion Approaches for Multi-Orbital Systems
Low-order hybridization expansions fail in multi-orbital systems because the least correlated orbital suppresses correlation features across all orbitals through spurious couplings generated by the truncation.
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Correlated 5f electronic states and phase stability in americium under high pressure: Insights from DFT+DMFT calculations
DFT+DMFT calculations on americium show partial 5f delocalization under pressure with valence mixing and link high-pressure phase stability to symmetry-lowering Peierls distortions.