AI Article Synopsis
- The study focuses on understanding electronic correlations in complex materials, particularly the balance between localized and itinerant electronic behaviors.
- Researchers used neutron spectroscopy to examine plutonium, a material at the boundary between different electronic configurations.
- Findings indicate that plutonium's ground state is influenced by valence fluctuations, supporting predictions from theory and helping to clarify its magnetic properties as well as the broader implications for other complex materials.
Article Abstract
A central issue in material science is to obtain understanding of the electronic correlations that control complex materials. Such electronic correlations frequently arise because of the competition of localized and itinerant electronic degrees of freedom. Although the respective limits of well-localized or entirely itinerant ground states are well understood, the intermediate regime that controls the functional properties of complex materials continues to challenge theoretical understanding. We have used neutron spectroscopy to investigate plutonium, which is a prototypical material at the brink between bonding and nonbonding configurations. Our study reveals that the ground state of plutonium is governed by valence fluctuations, that is, a quantum mechanical superposition of localized and itinerant electronic configurations as recently predicted by dynamical mean field theory. Our results not only resolve the long-standing controversy between experiment and theory on plutonium's magnetism but also suggest an improved understanding of the effects of such electronic dichotomy in complex materials.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4646783 | PMC |
| http://dx.doi.org/10.1126/sciadv.1500188 | DOI Listing |
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