2010
DOI: 10.1088/0954-3899/37/3/035003
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Bound-state parameters from dispersive sum rules for vacuum-to-vacuum correlators

Abstract: We study the extraction of the ground-state parameters from vacuum-to-vacuum correlators. We work in quantum-mechanical potential model which provides the only possibility to probe the reliability and the actual accuracy of this method: one obtains the bound-state parameters from the correlators by the standard procedures adopted in the method of sum rules and compares these results with the exact values calculated from the Schrödinger equation. We focus on the crucial ingredient of the method of sum rules -th… Show more

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Cited by 34 publications
(24 citation statements)
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“…Define and apply an appropriate criterion for fixing the effective continuum threshold s eff (τ). To this end, we employ an earlier developed algorithm [6][7][8][9] that allows for a reliable extraction of the ground-state properties in quantum mechanics and of the charmed-meson decay constants in QCD. We introduce the dual invariant mass M dual and the dual decay constant f dual by defining…”
Section: Extraction Of Observables Such As Decay Constants From Qcd Smentioning
confidence: 99%
“…Define and apply an appropriate criterion for fixing the effective continuum threshold s eff (τ). To this end, we employ an earlier developed algorithm [6][7][8][9] that allows for a reliable extraction of the ground-state properties in quantum mechanics and of the charmed-meson decay constants in QCD. We introduce the dual invariant mass M dual and the dual decay constant f dual by defining…”
Section: Extraction Of Observables Such As Decay Constants From Qcd Smentioning
confidence: 99%
“…Some time ago, we embarked on thorough investigations of both the accuracy and precision actually achievable by and the systematic uncertainties inherent to the formalism of QCD sum rules [2][3][4][5][6]. As a consequence of these studies, we proposed a somewhat modified algorithm that provides estimates of intrinsic errors [7][8][9][10][11]. With this improvement at our disposal, we revisited QCD sum-rule extractions of a variety of hadronic observables, particularly of the leptonic decay constants of the heavy-light mesons [12][13][14][15][16], which led us to the conclusion [17][18][19][20][21] that, in the bottom-meson system, the decay constants of the pseudoscalar mesons exceed those of their vector counterparts, as has been confirmed thereafter in lattice QCD [22].…”
Section: Decay Constants Of Heavy-light Mesons From Qcd Sum-rule Persmentioning
confidence: 99%
“…The derivative of any such decay-constant ratio with respect to x q , that is, its slope, at the origin x q = 0, eff (τ) proves crucial for the accuracy of QCD sum-rule outcomes and our ability to estimate their intrinsic uncertainties [2][3][4][5][6][7][8][9][10][11]. Application of all these procedures to interpolating currents of type J = A, V results in QCD sum rules…”
Section: Decay Constants Of Heavy-light Mesons From Qcd Sum-rule Persmentioning
confidence: 99%
“…Our approach [1][2][3][4][5][6][7][8][9][10][11][12][13][14] seeks to quantify the uncertainty induced by such an approximation and to improve the accuracy of all predictions by allowing our threshold to depend on the involved momenta and parameters introduced upon application of Borel transformations. The Borel transformation to a new variable, the Borel parameter (called T or τ hereafter), serves to remove subtraction terms and suppress excitation and continuum contributions.…”
Section: Incentive: Improvement Of Qcd Sum Rules [1-14]mentioning
confidence: 99%
“…However, in order to extract from q)) the elastic form factor F g (q) by exploiting only the knowledge of E g and R g we simultaneously have to pin down the actual behaviour of the effective continuum thresholds. We thus adopt for our thresholds the simple polynomial ansatz [10][11][12] …”
Section: Duality ⇐⇒ Effective Continuum Thresholdsmentioning
confidence: 99%