43,804 research outputs found

    Neutrino-Antineutrino Asymmetry around Rotating Black Holes

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    Propagation of fermion in curved space-time generates gravitational interaction due to the coupling between spin of the fermion and space-time curvature. This gravitational interaction, which is an axial-vector appears as CPT violating term in the Lagrangian. It is seen that this space-time interaction can generate neutrino asymmetry in Universe. If the back-ground metric is spherically asymmetric, say, of a rotating black hole, this interaction is non-zero, thus the net difference to the number density of the neutrino and anti-neutrino is nonzero.Comment: 3 pages, pramana style; to appear in a special issue of Pramana -- J. Phys., as proceedings of IXth Particle-String-Cosmology (PASCOS), January 3-8, 2003, TIFR, Mumbai, Indi

    Automorphisms of abelian group extensions

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    Let 1NGH11 \to N \to G \to H \to 1 be an abelian extension. The purpose of this paper is to study the problem of extending automorphisms of NN and lifting automorphisms of HH to certain automorphisms of GG.Comment: 11 page

    Frustration of tilts and A-site driven ferroelectricity in KNbO_3-LiNbO_3 alloys

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    Density functional calculations for K_{0.5}Li_{0.5}NbO_3 show strong A-site driven ferroelectricity, even though the average tolerance factor is significantly smaller than unity and there is no stereochemically active A-site ion. This is due to the frustration of tilt instabilities by A-site disorder. There are very large off-centerings of the Li ions, which contribute strongly to the anisotropy between the tetragonal and rhombohedral ferroelectric states, yielding a tetragonal ground state even without strain coupling.Comment: 4 pages, 5 figure

    Facile Synthesis of Manganese Oxyhydroxide (MnOOH) Nanowires for the Capacitors Application

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    A facile method has been introduced to synthesis manganese oxyhydroxide (MnOOH) nanowires synthesized using hydrothermal reaction. The synthesized nanowires have been characterized using different techniques like X-ray diffractogram, infra-red spectroscopy, field emission scanning electron microscopy (FESEM) and electrochemical methods. FESEM results show that the obtained nanowires have very uniform morphology. The electrochemical test shows to have capacitance of 130 F/gm

    Long-range interacting many-body systems with alkaline-earth-metal atoms

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    Alkaline-earth-metal atoms exhibit long-range dipolar interactions, which are generated via the coherent exchange of photons on the 3P_0-3D_1-transition of the triplet manifold. In case of bosonic strontium, which we discuss here, this transition has a wavelength of 2.7 \mu m and a dipole moment of 2.46 Debye, and there exists a magic wavelength permitting the creation of optical lattices that are identical for the states 3P_0 and 3D_1. This interaction enables the realization and study of mixtures of hard-core lattice bosons featuring long-range hopping, with tuneable disorder and anisotropy. We derive the many-body Master equation, investigate the dynamics of excitation transport and analyze spectroscopic signatures stemming from coherent long-range interactions and collective dissipation. Our results show that lattice gases of alkaline-earth-metal atoms permit the creation of long-lived collective atomic states and constitute a simple and versatile platform for the exploration of many-body systems with long-range interactions. As such, they represent an alternative to current related efforts employing Rydberg gases, atoms with large magnetic moment, or polar molecules

    Dipole Moment and Molecular Constants for Copper and Silver Monohalides

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    Optical Properties and Correlation Effects in NaxCoO2

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    We have calculated the optical spectra of Nax_{x}CoO2_2 for xx=0.3, 0.5, and 0.7 within the LDA. We compare our results to available experimental data and show that the important features and trends are reproduced well, but there is a nearly uniform shift of peak positions and poor agreement in intensities. We show, through application of a simple model, that these differences can be attributed to overhybridization between Co and O orbitals and spin fluctuations which renormalize the bandwidth. Applying the LDA+U procedure shifts the optical peaks further from their experimental locations, indicating that this method of incorporating correlation effects is ill-suited for the case NaxCoO2

    Why Ni3_3Al is an itinerant ferromagnet but Ni3_3Ga is not

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    Ni3_3Al and Ni3_3Ga are closely related materials on opposite sides of a ferromagnetic quantum critical point. The Stoner factor of Ni is virtually the same in both compounds and the density of states is larger in Ni3_3Ga. So, according to the Stoner theory, it should be more magnetic, and, in LDA calculations, it is. However, experimentally, it is a paramagnet, while Ni3_3Al is an itinerant ferromagnet. We show that the critical spin fluctuations are stronger than in Ni3_3Ga, due to a weaker q-dependence of the susceptibility, and this effect is strong enough to reverse the trend. The approach combines LDA calculations with the Landau theory and the fluctuation-dissipation theorem using the same momentum cut-off for both materials. The calculations provide evidence for strong, beyond LDA, spin fluctuations associated with the critical point in both materials, but stronger in Ni3_3Ga than in Ni3_3Al.Comment: replaced (incorrect version submitted

    Lattice dynamics and reduced thermal conductivity of filled skutterudites

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    The great reduction in thermal conductivity of skutterudites upon filling the ``void'' sites with Rare Earth (RE) ions is key to their favorable thermoelectric properties but remains to be understood. Using lattice dynamic models based on first principles calculations, we address the most popular microscopic mechanism, reduction via rattling ions. The model withstands inelastic neutron scattering and specific heat measurements, and refutes hypotheses of an anharmonic RE potential and of two distinct localized RE vibrations of disparate frequencies. It does indicate a strong hybridization between bare La vibrations and certain Sb-like phonon branches, suggesting anharmonic scattering by harmonic RE motions as an important mechanism for suppression of heat conductivity.Comment: modified version resubmitted to PRB. Results unchanged, text changed substantiall

    Inertial parameters and superfluid-to-normal phase transition in superdeformed bands

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    The quasiclassically exact solution for the second inertial parameter B\cal B is found in self-consistent way. It is shown that superdeformation and nonuniform pairing arising from the rotation induced pair density significantly reduce this inertial parameter. The different limiting cases for B\cal B, which allow to study an interplay between rapid rotation, pairing correlations, and mean field deformation, are considered. The new signature for the transition from pairing to normal phase is suggested in terms of the variation of B/A{\cal B}/{\cal A} versus spin. Experimental data indicate the existence of such transition in the three superdeformed mass regions.Comment: 8 pages, LaTeX, 3 figure
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