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W2023683413 abstract "In the color glass condensate framework the saturation scale measured in deep inelastic scattering of high energy hadrons and nuclei can be determined from the correlator of Wilson lines in the hadron wavefunction. These same Wilson lines give the initial condition of the classical field computation of the initial gluon multiplicity and energy density in a heavy ion collision. In this paper the Wilson line correlator in both adjoint and fundamental representations is computed using exactly the same numerical procedure as has been used to calculate gluon production in a heavy ion collision. In particular the discretization of the longitudinal coordinate has a large numerical effect on the relation between the color charge density parameter g2μ and the saturation scale Qs. Our result for this relation is Qs≈0.6g2μ, which results in the classical Yang–Mills value for the “gluon liberation coefficient” c≈1.1." @default.
W2023683413 created "2016-06-24" @default.
W2023683413 creator A5063103174 @default.
W2023683413 date "2008-04-24" @default.
W2023683413 modified "2023-10-05" @default.
W2023683413 title "Wilson line correlator in the MV model: relating the glasma to deep inelastic scattering" @default.
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W2023683413 cites W1976174002 @default.
W2023683413 cites W1983353900 @default.
W2023683413 cites W1987724261 @default.
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W2023683413 cites W1999777614 @default.
W2023683413 cites W2003809413 @default.
W2023683413 cites W2004400199 @default.
W2023683413 cites W2004798296 @default.
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W2023683413 cites W2014463782 @default.
W2023683413 cites W2016728871 @default.
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W2023683413 cites W2035785228 @default.
W2023683413 cites W2042864007 @default.
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W2023683413 cites W2073555788 @default.
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W2023683413 doi "https://doi.org/10.1140/epjc/s10052-008-0588-4" @default.
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