1997
DOI: 10.1016/s0550-3213(96)00580-9
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Gauge-invariant field strength correlations in QCD at zero and non-zero temperature

Abstract: We determine, by numerical simulations on a lattice, the gauge-invariant two-point correlation functions of the gauge field strengths in the QCD vacuum at zero temperature, down to a distance of 0.1 fm. We also study the behaviour of the gauge-invariant field correlators in the theory at finite temperature, across the deconfinement phase transition

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Cited by 135 publications
(237 citation statements)
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“…At this value of β scaling has been already tested for the case of the straight-line paths in Refs. [17,18]. The data of Refs.…”
Section: Computations and Resultsmentioning
confidence: 98%
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“…At this value of β scaling has been already tested for the case of the straight-line paths in Refs. [17,18]. The data of Refs.…”
Section: Computations and Resultsmentioning
confidence: 98%
“…(2.4) and (2.5), we shall make use of the cooling technique, described in previous papers (see Refs. [20,21] and [17,18,19]). Cooling is a local procedure, which affects correlations at distances that grow as the square root of the number of cooling steps, as in a diffusion process.…”
Section: Computations and Resultsmentioning
confidence: 99%
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“…Recalling from Eq. (4.47) that ζ ∼ 1/aE, and that the vacuum correlation length is of the order of a ∼ 0.2 ÷ 0.3 fm ∼ 1 ÷ 1.5 GeV −1 [64,65,66,67,68,69], we can estimate 49) which is less than one in the considered range of t and for not too heavy mesons. This estimate is quite conservative, and actually we expect that the typical transverse momentum of a parton involved in the process is of the same order of √ −t: for very small transferred momentum √ −t ≪ 1 GeV, we expect therefore that we can neglect the terms involving the transverse momentum of the partons, at least in a first approximation, so that the "contracted spin factors" are independent of ζ.…”
Section: Limit Of Vanishing Longitudinal-momentum Fractionmentioning
confidence: 98%