4,410 research outputs found

    Hysteresis Switching Loops in Ag-manganite memristive interfaces

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    Multilevel resistance states in silver-manganite interfaces are studied both experimentally and through a realistic model that includes as a main ingredient the oxygen vacancies diffusion under applied electric fields. The switching threshold and amplitude studied through Hysteresis Switching Loops are found to depend critically on the initial state. The associated vacancy profiles further unveil the prominent role of the effective electric field acting at the interfaces. While experimental results validate main assumptions of the model, the simulations allow to disentangle the microscopic mechanisms behind the resistive switching in metal-transition metal oxide interfaces.Comment: 14 pages, 3 figures, to be published in Jour. of Appl. Phy

    Pair Production of Neutral Higgs Bosons through Noncommutative QED Interactions at Linear Colliders

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    We study the feasibility of detecting noncommutative (NC) QED through neutral Higgs boson (H) pair production at linear colliders (LC). This is based on the assumption that H interacts directly with photon in NCQED as suggested by symmetry considerations and strongly hinted by our previous study on \pi^0-photon interactions. We find the following striking features as compared to the standard model (SM) result: (1) generally larger cross sections for an NC scale of order 1 TeV; (2) completely different dependence on initial beam polarizations; (3) distinct distributions in the polar and azimuthal angles; and (4) day-night asymmetry due to the Earth's rotation. These will help to separate NC signals from those in the SM or other new physics at LC. We emphasize the importance of treating properly the Lorentz noninvariance problem and show how the impact of the Earth's rotation can be used as an advantage for our purpose of searching for NC signals.Comment: 12 pages, 3 figures using axodraw.sty; v2: proof version in Phys. Rev. D, minor rewordin

    Four-quark Operators Relevant to B Meson Lifetimes from QCD Sum Rules

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    At the order of 1/m_b^3, the B meson lifetimes are controlled by the hadronic matrix elements of some four-quark operators. The nonfactorizable magnitudes of these four-quark operator matrix elements are analyzed by QCD sum rules in the framework of heavy quark effective theory. The vacuum saturation for color-singlet four-quark operators is justified at hadronic scale, and the nonfactorizable effect is at a few percent level. However for color-octet four-quark operators, the vacuum saturation is violated sizably that the nonfactorizable effect cannot be neglected for the B meson lifetimes. The implication to the extraction of some of the parameters from B decays is discussed. The B meson lifetime ratio is predicted as \tau(B^-)/\tau(B^0)=1.09\pm 0.02. However, the experimental result of the lifetime ratio \tau(\Lambda_b)/\tau(B^0) still cannot be explained.Comment: 20 pages, latex, 6 figures, discussion on non-factorizable effect of the four-quark condensate added, to appear in Phys. Rev. D57 (1998

    Non-Commutativity and Unitarity Violation in Gauge Boson Scattering

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    We examine the unitarity properties of spontaneously broken non-commutative gauge theories. We find that the symmetry breaking mechanism in the non-commutative Standard Model of Chaichian et al. leads to an unavoidable violation of tree-level unitarity in gauge boson scattering at high energies. We then study a variety of simplified spontaneously broken non-commutative theories and isolate the source of this unitarity violation. Given the group theoretic restrictions endemic to non-commutative model building, we conclude that it is difficult to build a non-commutative Standard Model under the Weyl-Moyal approach that preserves unitarity.Comment: 31 page

    Discerning Noncommutative Extra Dimensions

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    Experimental limits on the violation of four-dimensional Lorentz invariance imply that noncommutativity among ordinary spacetime dimensions must be small. Noncommutativity among extra, compactified spatial dimensions, however, is far less constrained and may have discernable collider signatures. Here we study the experimental consequences of noncommutative QED in six dimensions, with noncommutativity restricted to a TeV-scale bulk. Assuming the orbifold T^2/Z_2, we construct the effective four-dimensional theory and study interactions unique to the noncommutative case. New vertices involving the Kaluza-Klein (KK) excitations of the photon yield order 100% corrections to the pair production and to the decays of some of the lighter modes. We show that these effects are difficult to resolve at the LHC, but are likely within the reach of a future Very Large Hadron Collider (VLHC).Comment: 20 pages LaTeX, 8 eps figures (minor revisions, version to appear in Phys. Rev. D

    Overscreened Single Channel Kondo Problem

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    We consider the single channel Kondo problem with the Kondo coupling between a spin SS impurity and conduction electrons with spin jj. These problems arise as multicritical points in the parameter spaces of two- and higher-level tunneling systems, and some impurity models of heavy fermion compounds. In contrast to the previous Bethe-anstaz conjectures, it turns out that the dynamics of the spin sector is the same as that of a spin SS impurity coupled to k(j)k(j) channels of spin 1/21/2 electrons with k(j)=2j(j+1)(2j+1)/3k(j) = 2j(j+1)(2j+1)/3. As a result, for 2S<k(j)2S < k(j), the system shows non-Fermi liquid behavior with the same exponents for the thermodynamic quantities as those of k(j)k(j) channel Kondo problem. However, both the finite-size spectrum and the operator content are different due to the presence of the other sectors and can be obtained by conformal field theory techniques.Comment: 4 pages, revtex, no figures. Revised Versio

    Instabilities of Higher-Order Parametric Solitons. Filamentation versus Coalescence

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    We investigate stability and dynamics of higher-order solitary waves in quadratic media, which have a central peak and one or more surrounding rings. We show existence of two qualitatively different behaviours. For positive phase mismatch the rings break up into filaments which move radially to initial ring. For sufficient negative mismatches rings are found to coalesce with central peak, forming a single oscillating filament.Comment: 5 pages, 7 figure

    Probing Noncommutative Space-Time in the Laboratory Frame

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    The phenomenological investigation of noncommutative space-time in the laboratory frame are presented. We formulate the apparent time variation of noncommutativity parameter θμν\theta_{\mu\nu} in the laboratory frame due to the earth's rotation. Furthermore, in the noncommutative QED, we discuss how to probe the electric-like component θE=(θ01,θ02,θ03)\overrightarrow{\theta_{E}}=(\theta_{01},\theta_{02},\theta_{03}) by the process ee+γγe^-e^+\to\gamma\gamma at future ee+e^-e^+ linear collider. We may determine the magnitude and the direction of θE\overrightarrow{\theta_{E}} by detailed study of the apparent time variation of total cross section. In case of us observing no signal, the upper limit on the magnitude of θE\overrightarrow{\theta_E^{}} can be determined independently of its direction.Comment: 12 pages, 7 figures, typos are corrected, one graph have been added in figure

    On a Network Model of Localization in a Random Magnetic Field

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    We consider a network model of snake states to study the localization problem of non-interacting fermions in a random magnetic field with zero average. After averaging over the randomness, the network of snake states is mapped onto MM coupled SU(2N)(2N) spin chains in the N0N \rightarrow 0 limit. The number of snake states near the zero-field contour, MM, is an even integer. In the large conductance limit g=Me22πg = M {e^2 \over 2 \pi \hbar} (M2M \gg 2), it turns out that this system is equivalent to a particular representation of the U(2N)/U(N)×U(N){\rm U}(2N) / {\rm U}(N) \times {\rm U}(N) sigma model (N0N \rightarrow 0) {\it without} a topological term. The beta function β(1/M)\beta (1/M) of this sigma model in the 1/M1/M expansion is consistent with the previously known β(g)\beta (g) of the unitary ensemble. These results and further plausible arguments support the conclusion that all the states are localized.Comment: Revtex, 6 pages, 3 figures appended as an uuencoded fil

    Anomalous Neutrino Interaction, Muon g-2, and Atomic Parity Nonconservation

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    We propose a simple unified description of two recent precision measurements which suggest new physics beyond the Standard Model of particle interactions, i.e. the deviation of sin2θW\sin^2 \theta_W in deep inelastic neutrino-nucleon scattering and that of the anomalous magnetic moment of the muon. Our proposal is also consistent with a third precision measurement, i.e. that of parity nonconservation in atomic Cesium, which agrees with the Standard Model.Comment: 9 pages, including 1 figure, latest muon g-2 information adde
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