7,533 research outputs found

    Electromagnetic corrections to leptonic decay rates of charged pseudoscalar mesons: finite-volume effects

    Full text link
    In Carrasco et al. we have recently proposed a method to calculate O(e2)O(e^2) electromagnetic corrections to leptonic decay widths of pseudoscalar mesons. The method is based on the observation that the infrared divergent contributions (that appear at intermediate stages of the calculation and that cancel in physical quantities thanks to the Bloch-Nordsieck mechanism) are universal, i.e. depend on the charge and the mass of the meson but not on its internal structure. In this talk we perform a detailed analysis of the finite-volume effects associated with our method. In particular we show that also the leading 1/L1/L finite-volume effects are universal and perform an analytical calculation of the finite-volume leptonic decay rate for a point-like meson

    Finite-Volume QED Corrections to Decay Amplitudes in Lattice QCD

    Full text link
    We demonstrate that the leading and next-to-leading finite-volume effects in the evaluation of leptonic decay widths of pseudoscalar mesons at O(α)O(\alpha) are universal, i.e. they are independent of the structure of the meson. This is analogous to a similar result for the spectrum but with some fundamental differences, most notably the presence of infrared divergences in decay amplitudes. The leading non-universal, structure-dependent terms are of O(1/L2)O(1/L^2) (compared to the O(1/L3)O(1/L^3) leading non-universal corrections in the spectrum). We calculate the universal finite-volume effects, which requires an extension of previously developed techniques to include a dependence on an external three-momentum (in our case, the momentum of the final state lepton). The result can be included in the strategy proposed in Ref.\,\cite{Carrasco:2015xwa} for using lattice simulations to compute the decay widths at O(α)O(\alpha), with the remaining finite-volume effects starting at order O(1/L2)O(1/L^2). The methods developed in this paper can be generalised to other decay processes, most notably to semileptonic decays, and hence open the possibility of a new era in precision flavour physics

    Leading isospin-breaking corrections to pion, kaon and charmed-meson masses with Twisted-Mass fermions

    Get PDF
    We present a lattice computation of the isospin-breaking corrections to pseudoscalar meson masses using the gauge configurations produced by the European Twisted Mass collaboration with Nf=2+1+1N_f = 2 + 1 + 1 dynamical quarks at three values of the lattice spacing (a0.062,0.082a \simeq 0.062, 0.082 and 0.0890.089 fm) with pion masses in the range Mπ210450M_\pi \simeq 210 - 450 MeV. The strange and charm quark masses are tuned at their physical values. We adopt the RM123 method based on the combined expansion of the path integral in powers of the dd- and uu-quark mass difference (m^dm^u\widehat{m}_d - \widehat{m}_u) and of the electromagnetic coupling αem\alpha_{em}. Within the quenched QED approximation, which neglects the effects of the sea-quark charges, and after the extrapolations to the physical pion mass and to the continuum and infinite volume limits, we provide results for the pion, kaon and (for the first time) charmed-meson mass splittings, for the prescription-dependent parameters ϵπ0\epsilon_{\pi^0}, \epsilon_\gamma(\overline{MS}, 2~\mbox{GeV}), \epsilon_{K^0}(\overline{MS}, 2~\mbox{GeV}), related to the violations of the Dashen's theorem, and for the light quark mass difference (\widehat{m}_d - \widehat{m}_u)(\overline{MS}, 2~\mbox{GeV}).Comment: 47 pages, 20 figures, 4 tables; comments on QED and QCD splitting prescriptions added; version to appear in PR

    Effective theoretical approach of Gauge-Higgs unification model and its phenomenological applications

    Full text link
    We derive the low energy effective theory of Gauge-Higgs unification (GHU) models in the usual four dimensional framework. We find that the theories are described by only the zero-modes with a particular renormalization condition in which essential informations about GHU models are included. We call this condition ``Gauge-Higgs condition'' in this letter. In other wards, we can describe the low energy theory as the SM with this condition if GHU is a model as the UV completion of the Standard Model. This approach will be a powerful tool to construct realistic models for GHU and to investigate their low energy phenomena.Comment: 18 pages, 2 figures; Two paragraphs discussing the applicable scope of this approach are adde

    Relaxation times of kinetically constrained spin models with glassy dynamics

    Full text link
    We analyze the density and size dependence of the relaxation time τ\tau for kinetically constrained spin systems. These have been proposed as models for strong or fragile glasses and for systems undergoing jamming transitions. For the one (FA1f) or two (FA2f) spin facilitated Fredrickson-Andersen model at any density ρ<1\rho<1 and for the Knight model below the critical density at which the glass transition occurs, we show that the persistence and the spin-spin time auto-correlation functions decay exponentially. This excludes the stretched exponential relaxation which was derived by numerical simulations. For FA2f in d2d\geq 2, we also prove a super-Arrhenius scaling of the form exp(1/(1ρ))τexp(1/(1ρ)2)\exp(1/(1-\rho))\leq \tau\leq\exp(1/(1-\rho)^2). For FA1f in dd=1,21,2 we rigorously prove the power law scalings recently derived in \cite{JMS} while in d3d\geq 3 we obtain upper and lower bounds consistent with findings therein. Our results are based on a novel multi-scale approach which allows to analyze τ\tau in presence of kinetic constraints and to connect time-scales and dynamical heterogeneities. The techniques are flexible enough to allow a variety of constraints and can also be applied to conservative stochastic lattice gases in presence of kinetic constraints.Comment: 4 page

    First lattice calculation of the QED corrections to leptonic decay rates

    Get PDF
    The leading-order electromagnetic and strong isospin-breaking corrections to the ratio of Kμ2K_{\mu 2} and πμ2\pi_{\mu 2} decay rates are evaluated for the first time on the lattice, following a method recently proposed. The lattice results are obtained using the gauge ensembles produced by the European Twisted Mass Collaboration with Nf=2+1+1N_f = 2 + 1 + 1 dynamical quarks. Systematics effects are evaluated and the impact of the quenched QED approximation is estimated. Our result for the correction to the tree-level Kμ2/πμ2K_{\mu 2} / \pi_{\mu 2} decay ratio is 1.22(16)%-1.22\,(16) \% to be compared to the estimate 1.12(21)%-1.12\,(21) \% based on Chiral Perturbation Theory and adopted by the Particle Data Group.Comment: 5 pages, 6 figures; extended supplemental material with 1 table and 1 figure, results unchange

    Generation of different Bell states within the SPDC phase-matching bandwidth

    Full text link
    We study the frequency-angular lineshape for a phase-matched nonlinear process producing entangled states and show that there is a continuous variety of maximally-entangled states generated for different mismatch values within the natural bandwidth. Detailed considerations are made for two specific methods of polarization entanglement preparation, based on type-II spontaneous parametric down-conversion (SPDC) and on SPDC in two subsequent type-I crystals producing orthogonally polarized photon pairs. It turns out that different Bell states are produced at the center of the SPDC line and on its slopes, corresponding to about half-maximum intensity level. These Bell states can be filtered out by either frequency selection or angular selection, or both. Our theoretical calculations are confirmed by a series of experiments, performed for the two above-mentioned schemes of producing polarization-entangled photon pairs and with two kinds of measurements: frequency-selective and angular-selective.Comment: submitted for publicatio

    Light-meson leptonic decay rates in lattice QCD+QED

    Get PDF
    The leading electromagnetic (e.m.) and strong isospin-breaking corrections to the π+μ+ν[γ]\pi^+ \to \mu^+ \nu[\gamma] and K+μ+ν[γ]K^+ \to \mu^+ \nu[\gamma] leptonic decay rates are evaluated for the first time on the lattice. The results are obtained using gauge ensembles produced by the European Twisted Mass Collaboration with Nf=2+1+1N_f = 2 + 1 + 1 dynamical quarks. The relative leading-order e.m.~and strong isospin-breaking corrections to the decay rates are 1.53(19)\% for πμ2\pi_{\mu 2} decays and 0.24(10)\% for Kμ2K_{\mu 2} decays. Using the experimental values of the πμ2\pi_{\mu 2} and Kμ2K_{\mu 2} decay rates and updated lattice QCD results for the pion and kaon decay constants in isosymmetric QCD, we find that the Cabibbo-Kobayashi-Maskawa matrix element Vus=0.22538(46) | V_{us}| = 0.22538(46), reducing by a factor of about 1.81.8 the corresponding uncertainty in the Particle Data Group review. Our calculation of Vus|V_{us}| allows also an accurate determination of the first-row CKM unitarity relation Vud2+Vus2+Vub2=0.99988(46)| V_{ud}|^2 + | V_{us}|^2 + | V_{ub}|^2 = 0.99988(46). Theoretical developments in this paper include a detailed discussion of how QCD can be defined in the full QCD+QED theory and an improved renormalisation procedure in which the bare lattice operators are renormalised non-perturbatively into the (modified) Regularization Independent Momentum subtraction scheme and subsequently matched perturbatively at O(αemαs(MW))O(\alpha_{em}\alpha_s(M_W)) into the W-regularisation scheme appropriate for these calculations.Comment: 63 pages, 10 figures and 2 tables. Version matches the published pape
    corecore