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Extended Kondo Correlations Throughout a Magnetic Adsorbed Molecule. STM map of Co-porphyrin ( Hla et al. ). Spin density of states throughout the molecule ( Marzari et al. ).
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Extended Kondo Correlations Throughout a Magnetic Adsorbed Molecule STM map of Co-porphyrin (Hla et al.) Spin density of states throughout the molecule (Marzari et al.) Materials Research Network – Collaborative Research:Decoherence, Correlations and Spin Effects on Nanostructured Materials Nancy P. Sandler, Ohio University, DMR 0710581 STM measurements of the Kondo temperature inside and throughout a Co porphyrin molecule deposited on Cu(111) can be understood thanks to NRG calculations in terms of the spatially-dependent spin density of states arising from large electron transfer to and strong hybridization inside the molecule. Physical Review Letters 2010
Materials Research Network – Collaborative Research:Decoherence, Correlations and Spin Effects on Nanostructured Materials Nancy P. Sandler, Ohio University, DMR 0710581 Suppression of Kondo Screening by the Dicke Effect Utilizing numerical group renormalization calculations, we have shown that the presence of nearby resonance states (Dicke effect) results in strong suppression and even total cancellation of the Kondo screening. Physical Review B 2010
Materials Research Network – Collaborative Research:Decoherence, Correlations and Spin Effects on Nanostructured Materials Nancy P. Sandler, Ohio University, DMR 0710581 New results on Graphene – our research shows that: • Zigzag ribbons can be described in terms of Majorana fermions. Energy bands for zigzag nanoribbons: dotted lines obtained with tight binding model, full lines corespond to Majoranafermion Hamiltonian. • Zigzag ribbons are special case of square lattices with anomalous width-dependence Graphene lattice as square lattice. When the parameter η takes the value 0, the square lattice reduces to a graphene lattice. Charge density difference between two graphene sublattices as a function of ribbon width. As square lattice becomes graphene, wave functions become more localized along the edges. New Journal of Physics 2009
Materials Research Network – Collaborative Research:Decoherence, Correlations and Spin Effects on Nanostructured Materials Nancy P. Sandler, Ohio University, DMR 0710581 Workshop in Rio de Janeiro The MWN-CIAM collaboration met in Rio de Janeiro 13-15 July 2010 to exchange ideas on current projects, as well as make concrete plans for future projects within the collaboration. The workshop was held at PUC-Rio and attended by over twenty researchers from Brazil, Chile, Spain, Argentina and the US. Discussion/summary sessions were held at the end of each day with active participation of young investigators.