Gauhar Abbas, B. Ananthanarayan, Irinel Caprini, I. Sentitemsu Imsong
Published 2010-08-05, updated 2010-11-03Version 2
The shape of the vector and scalar K_{l3} form factors is investigated by exploiting analyticity and unitarity in a model-independent formalism. The method uses as input dispersion relations for certain correlators computed in perturbative QCD in the deep Euclidean region, soft-meson theorems, and experimental information on the phase and modulus of the form factors along the elastic part of the unitarity cut. We derive constraints on the coefficients of the parameterizations valid in the semileptonic range and on the truncation error. The method also predicts low-energy domains in the complex $t$-plane where zeros of the form factors are excluded. The results are useful for K_{l3} data analyses and provide theoretical underpinning for recent phenomenological dispersive representations for the form factors.
Comments: 14 pages, 10 figures, uses revtex; revised version corresponding to that accepted by Physical Review D; references and explanations added, sensitivity analysis included
Journal: Phys.Rev.D82:094018,2010
Constraints on the form factors for K --> pi l nu and implications for V_us
The $Dπ$ form factors from analyticity and unitarity
Testing the consistency of the $ωπ$ transition form factor with unitarity and analyticity
![QR code for arXiv:1008.0925 [hep-ph]](http://oss.arxitics.com/images/favicon.svg)