46,504 research outputs found

    Determination of f+K(0)f_+^K(0) and Extraction of ∣Vcs∣|V_{cs}| from Semileptonic DD Decays

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    By globally analyzing all existing measured branching fractions and partial rates in different four momentum transfer-squared q2q^2 bins of D→Ke+νeD\to Ke^+\nu_e decays, we obtain the product of the form factor and magnitude of CKM matrix element VcsV_{cs} to be f+K(0)∣Vcs∣=0.717±0.004f_+^K(0)|V_{cs}|=0.717\pm0.004. With this product, we determine the D→KD\to K semileptonic form factor f+K(0)=0.737±0.004±0.000f_+^K(0)=0.737\pm0.004\pm0.000 in conjunction with the value of ∣Vcs∣|V_{cs}| determined from the SM global fit. Alternately, with the product together with the input of the form factor f+K(0)f_+^K(0) calculated in lattice QCD recently, we extract ∣Vcs∣D→Ke+νe=0.962±0.005±0.014|V_{cs}|^{D\to Ke^+\nu_e}=0.962\pm0.005\pm0.014, where the error is still dominated by the uncertainty of the form factor calculated in lattice QCD. Combining the ∣Vcs∣Ds+→ℓ+νℓ=1.012±0.015±0.009|V_{cs}|^{D_s^+\to\ell^+\nu_\ell}=1.012\pm0.015\pm0.009 extracted from all existing measurements of Ds+→ℓ+νℓD^+_s\to\ell^+\nu_\ell decays and ∣Vcs∣D→Ke+νe=0.962±0.005±0.014|V_{cs}|^{D\to Ke^+\nu_e}=0.962\pm0.005\pm0.014 together, we find the most precisely determined ∣Vcs∣|V_{cs}| to be ∣Vcs∣=0.983±0.011|V_{cs}|=0.983\pm0.011, which improves the accuracy of the PDG'2014 value ∣Vcs∣PDG′2014=0.986±0.016|V_{cs}|^{\rm PDG'2014}=0.986\pm0.016 by 45%45\%

    A theoretical analysis of the current-voltage characteristics of solar cells

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    The correlation of theoretical and experimental data is discussed along with the development of a complete solar cell analysis. The dark current-voltage characteristics, and the parameters for solar cells are analyzed. The series resistance, and impurity gradient effects on solar cells were studied, the effects of nonuniformities on solar cell performance were analyzed

    A theoretical analysis of the current-voltage characteristics of solar cells

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    The following topics are discussed: (1) dark current-voltage characteristics of solar cells; (2) high efficiency silicon solar cells; (3) short circuit current density as a function of temperature and the radiation intensity; (4) Keldysh-Franz effects and silicon solar cells; (5) thin silicon solar cells; (6) optimum solar cell designs for concentrated sunlight; (7) nonuniform illumination effects of a solar cell; and (8) high-low junction emitter solar cells

    Scattering of plasmons at the intersection of two metallic nanotubes: Implications for tunnelling

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    We study theoretically the plasmon scattering at the intersection of two metallic carbon nanotubes. We demonstrate that for a small angle of crossing, θ≪1\theta \ll 1, the transmission coefficient is an oscillatory function of λ/θ\lambda/\theta, where λ\lambda is the interaction parameter of the Luttinger liquid in an individual nanotube. We calculate the tunnel density of states, ν(ω,x)\nu(\omega,x), as a function of energy, ω\omega, and distance, xx, from the intersection. In contrast to a single nanotube, we find that, in the geometry of crossed nanotubes, conventional "rapid" oscillations in ν(ω,x)\nu(\omega,x) due to the plasmon scattering acquire an aperiodic "slow-breathing" envelope which has λ/θ\lambda/\theta nodes.Comment: 4 pages, 2 figures (revised version
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