217 research outputs found

    Calculations for antiferrodistortive phase of SrTiO3 perovskite: hybrid density functional study

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    The electronic and atomic structure of SrTiO3 crystals below the antiferrodistortive phase transition observed at 105 K is calculated using the hybrid B3PW functional as implemented in the ab initio CRYSTAL-2003 computer code. Such a combination of non-local exchange and correlation permits the calculation for the first time of the TiO6 octahedron rotational angle and the ratio c/a of tetragonal lattice constants in excellent agreement with experimental data. The level splitting of the bottom of the conduction band is found to be very small, <1 meV. The predicted phase-transition induced change of the optical gap from indirect to direct is confirmed by experimental photoconductivity data

    Diffusion-controlled death of AA-particle and BB-particle islands at propagation of the sharp annihilation front A+B→0A + B \to 0

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    We consider the problem of diffusion-controlled evolution of the system AA-particle island - BB-particle island at propagation of the sharp annihilation front A+B→0A+B\to 0. We show that this general problem, which includes as particular cases the sea-sea and the island-sea problems, demonstrates rich dynamical behavior from self-accelerating collapse of one of the islands to synchronous exponential relaxation of the both islands. We find a universal asymptotic regime of the sharp front propagation and reveal limits of its applicability for the cases of mean-field and fluctuation fronts.Comment: 4 revtex pages, 1 jpg figure. Submitted to Phys. Rev.

    Diffusion-controlled annihilation A+B→0A + B \to 0: The growth of an AA particle island from a localized AA-source in the BB particle sea

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    We present the growth dynamics of an island of particles AA injected from a localized AA-source into the sea of particles BB and dying in the course of diffusion-controlled annihilation A+Bβ†’0A+B\to 0. We show that in the 1d case the island unlimitedly grows at any source strength Ξ›\Lambda, and the dynamics of its growth {\it does not depend} asymptotically on the diffusivity of BB particles. In the 3d case the island grows only at Ξ›>Ξ›c\Lambda > \Lambda_{c}, achieving asymptotically a stationary state ({\it static island}). In the marginal 2d case the island unlimitedly grows at any Ξ›\Lambda but at Ξ›<Ξ›βˆ—\Lambda < \Lambda_{*} the time of its formation becomes exponentially large. For all the cases the numbers of surviving and dying AA particles are calculated, and the scaling of the reaction zone is derived.Comment: 5 REVTEX pages, no figure

    Ab initio Calculations for SrTiO_3 (100) Surface Structure

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    Results of detailed calculations for SrTiO_3 (100) surface relaxation and the electronic structure for the two different terminations (SrO and TiO_2) are discussed. These are based on ab initio Hartree-Fock (HF) method with electron correlation corrections and Density Functional Theory (DFT) with different exchange-correlation functionals, including hybrid (B3PW, B3LYP) exchange techniques. Results are compared with previous ab initio plane wave LDA calculations. All methods agree well on both surface energies and on atomic displacements. Considerable increase of Ti[Single Bond]O chemical bond covalency nearby the surface is predicted, along with a gap reduction, especially for the TiO_2 termination

    The first-principles treatment of the electron-correlation and spin-orbital effects in uranium mononitride nuclear fuels

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    The DFT+U calculations were employed in a detailed study of the strong electron correlation effects in promising nuclear fuel -- uranium mononitride (UN). A simple method for solving the multiple minima problem in DFT+U simulations and insure obtaining the correct ground state is suggested and applied. The crucial role of spin-orbit interactions in reproduction of the U atom total magnetic moment is demonstrated. Basic material properties (the lattice constants, the spin- and total magnetic moments on U atoms, magnetic ordering, and the density of states) were calculated varying the Hubbard U-parameter. Varying the tetragonal unit cell distortion, the meta-stable states have been carefully identified and analyzed. The difference of the magnetic and structural properties obtained for the meta-stable and ground states are discussed. The optimal effective Hubbard parameter Ueff =1.85 eV reproduces correctly the UN anti-ferromagnetic ordering, and only slightly overestimates the experimental total magnetic moment of U atom and the unit cell volume.JRC.E.3-Materials researc

    Theory of bound polarons in oxide compounds

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    We present a multilateral theoretical study of bound polarons in oxide compounds MgO and \alpha-Al_2O_3 (corundum). A continuum theory at arbitrary electron-phonon coupling is used for calculation of the energies of thermal dissociation, photoionization (optically induced release of an electron (hole) from the ground self-consistent state), as well as optical absorption to the non-relaxed excited states. Unlike the case of free strong-coupling polarons, where the ratio \kappa of the photoionization energy to the thermal dissociation energy was shown to be always equal to 3, here this ratio depends on the Froehlich coupling constant \alpha and the screened Coulomb interaction strength \beta. Reasonable variation of these two parameters has demonstrated that the magnitude of \kappa remains usually in the narrow interval from 1 to 2.5. This is in agreement with atomistic calculations and experimental data for hole O^- polarons bound to the cation vacancy in MgO. The thermal dissociation energy for the ground self-consistent state and the energy of the optically induced charge transfer process (hops of a hole between O^{2-} ions) have been calculated using the quantum-chemical method INDO. Results obtained within the two approaches for hole Oβˆ’^- polarons bound by the cation vacancies (V^-) in MgO and by the Mg^{2+} impurity (V_{Mg}) in corundum are compared to experimental data and to each other. We discuss a surprising closeness of the results obtained on the basis of independent models and their agreement with experiment.Comment: 13 pages, 2 figures, 2 tables, E-mail addresses: [email protected], [email protected]
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