46 research outputs found

    Modeling the actinides with disordered local moments

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    A first-principles disordered local moment (DLM) picture within the local-spin-density and coherent potential approximations (LSDA+CPA) of the actinides is presented. The parameter free theory gives an accurate description of bond lengths and bulk modulus. The case of δ\delta-Pu is studied in particular and the calculated density of states is compared to data from photo-electron spectroscopy. The relation between the DLM description, the dynamical mean field approach and spin-polarized magnetically ordered modeling is discussed.Comment: 6 pages, 4 figure

    Spectral and transport properties of doped Mott-Hubbard systems with incommensurate magnetic order

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    We present spectral and optical properties of the Hubbard model on a two-dimensional square lattice using a generalization of dynamical mean-field theory to magnetic states in finite dimension. The self-energy includes the effect of spin fluctuations and screening of the Coulomb interaction due to particle-particle scattering. At half-filling the quasiparticles reduce the width of the Mott-Hubbard `gap' and have dispersions and spectral weights that agree remarkably well with quantum Monte Carlo and exact diagonalization calculations. Away from half-filling we consider incommensurate magnetic order with a varying local spin direction, and derive the photoemission and optical spectra. The incommensurate magnetic order leads to a pseudogap which opens at the Fermi energy and coexists with a large Mott-Hubbard gap. The quasiparticle states survive in the doped systems, but their dispersion is modified with the doping and a rigid band picture does not apply. Spectral weight in the optical conductivity is transferred to lower energies and the Drude weight increases linearly with increasing doping. We show that incommensurate magnetic order leads also to mid-gap states in the optical spectra and to decreased scattering rates in the transport processes, in qualitative agreement with the experimental observations in doped systems. The gradual disappearence of the spiral magnetic order and the vanishing pseudogap with increasing temperature is found to be responsible for the linear resistivity. We discuss the possible reasons why these results may only partially explain the features observed in the optical spectra of high temperature superconductors.Comment: 22 pages, 18 figure

    Orbital state and magnetic properties of LiV_2 O_4

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    LiV_2 O_4 is one of the most puzzling compounds among transition metal oxides because of its heavy fermion like behavior at low temperatures. In this paper we present results for the orbital state and magnetic properties of LiV_2 O_4 obtained from a combination of density functional theory within the local density approximation and dynamical mean-field theory (DMFT). The DMFT equations are solved by quantum Monte Carlo simulations. The trigonal crystal field splits the V 3d orbitals such that the a_{1g} and e_{g}^{pi} orbitals cross the Fermi level, with the former being slightly lower in energy and narrower in bandwidth. In this situation, the d-d Coulomb interaction leads to an almost localization of one electron per V ion in the a_{1g} orbital, while the e_{g}^{pi} orbitals form relatively broad bands with 1/8 filling. 2The theoretical high-temperature paramagnetic susceptibility chi(T) follows a Curie-Weiss law with an effective paramagnetic moment p_{eff}=1.65 in agreement with the experimental results.Comment: 11 pages, 10 figures, 2 table

    Local electronic signatures of impurity states in graphene

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    Contains fulltext : 34550.pdf (publisher's version ) (Open Access

    Midgap states in corrugated graphene: First principles calculations

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    Contains fulltext : 34483.pdf (author's version ) (Closed access)We investigate the electronic properties of corrugated graphene by means of first principles theory and show how rippling-induced pseudomagnetic fields alter graphene's low-energy excitations. The formation of flat bands near the Fermi level corresponding to pseudo-Landau levels is studied quantitatively as a function of the rippling parameters. Especially, the zero-energy level gives rise to specific real space signatures like full sublattice polarization and related sublattice stripes observable in any experiment probing the local electronic structure. For guiding future experiments, we calculate the length scale, where these effects could be induced in a controlled manner by bonding of graphene to a rippled substrate. Finally, we give an estimate for the ripple analog to the strong diamagnetism of graphite - a quantum effect beyond the classical membrane treatment of graphene.5828 p

    Orbitally controlled Kondo effect of Co adatoms on graphene

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    Based on ab-initio calculations we identify possible scenarios for the Kondo effect due to Co ad-atoms on graphene. General symmetry arguments show that for magnetic atoms in high-symmetry positions, the Kondo effect in graphene is controlled not only by the spin but also by the orbital degree of freedom. For a Co atom absorbed on top of a carbon atom, the Kondo effect is quenched by spin-orbit coupling below an energy scale of 15\sim 15\,K. For Co with spin S=1/2S=1/2 located in the center of a hexagon, an SU(4) Kondo model describes the entanglement of orbital moment and spin at higher energies, while below \sim 60$\,meV spin-orbit coupling leads to a more conventional SU(2) Kondo effect. The interplay of the orbital Co physics and the peculiar band-structure of graphene is directly accessible in Fourier transform tunneling spectroscopy or in the gate-voltage dependence of the Kondo temperature displaying a very strong, characteristic particle-hole asymmetry.Comment: 6 pages, 4 figures (extended version

    Markers of Epstein-Barr virus in clinical assessment of Russian patients with nasopharyngeal cancer [Маркеры вируса Эпштейна-Барр в оценке клинического состояния российских больных раком носоглотки]

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    Introduction. Epstein-Barr virus (EBV) is equally widespread in the endemic and non-endemic world regions for nasopharyngeal cancer (NPC). High incidence of NPC in endemic countries and low in non-endemic countries suggest there are different mechanisms and conditions for tumor occurrence and, possibly, different clinical significance of EBV-associated markers. However, significance of these markers for determining NPC in non-endemic regions is still poorly understood. Objective - to determine clinical significance of titers of IgG/IgA antibodies to EBV capsid antigen and concentrations of the viral DNA in patients' blood plasma as diagnostic and monitoring markers for NPC in a non-endemic region of Russia. Materials and methods. Titers of EB-specific antibodies were determined by indirect immunofluorescence, and concentration of the viral DNA in plasma was measured using a quantitative polymerase chain reaction in real time. Study group included patients with NPC (n = 96), and control group - blood donors (n = 171) and patients with other head and neck tumors (n = 33). Results. Titers of IgG/IgA antibodies to EBV capsid antigen, being an important diagnostic marker of nasopharyngeal cancer, did not always correlate with patients' clinical condition. Humoral response to emerging events often delayed due to inertia of the immune system. Concentration of EBV DNA in patients' blood plasma clearly reflected the dynamics of the pathological process: it decreased to background values in remission and increased while the disease progressed. In contrast to endemic regions, we did not find any correlation between the studied EBV markers and clinical manifestations of the disease, evaluated in accordance with the TNM classification (Tumor, Nodus and Metastasis). Conclusion. In non-endemic countries, such as Russia, serological and molecular markers of EBV can be successfully used for the primary diagnosis of NPC. However, for the disease monitoring, it is preferable to use the value of the concentrations of circulating EBV DNA, which, in contrast to the values of IgG/IgA antibody titers to VCA EBV, more accurately reflect the patient's clinical condition. © 2021 Uspehi Molekularnoj Onkologii. All rights reserved
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