Scale anomaly and "soft" pomeron in QCD

Dmitri Kharzeev; Eugene Levin

doi:10.1016/S0550-3213(00)00158-9

Scale anomaly and "soft" pomeron in QCD

Dmitri Kharzeev
, Eugene Levin

Physics and Astronomy

Brookhaven National Laboratory
Tel Aviv University

Research output: Contribution to journal › Article › peer-review

55 Scopus citations

Abstract

We propose a new non-perturbative approach to hadronic interactions at high energies and small momentum transfer, which is based on the scale anomaly of QCD and emphasizes the rôle of semi-classical vacuum fields. We find that the hadron scattering amplitudes exhibit Regge behavior and evaluate the intercept α(0) of the corresponding trajectory. Both the intercept and the scale for the slope of the trajectory appear to be determined by the energy density of non-perturbative QCD vacuum (the gluon condensate). Numerically, we find Δ≡α(0)-1=0.08÷0.1 , consistent with the values ascribed phenomenologically to the "soft" pomeron. For arbitrary numbers of colors N_c and flavors N_f , Δ is found to be proportional to (N_f/N_c)² ; however, in the large N_c (N_f fixed) limit, Δ∼N_c⁰ .

Original language	English
Pages (from-to)	351-363
Number of pages	13
Journal	Nuclear Physics, Section B
Volume	578
Issue number	1-2
DOIs	https://doi.org/10.1016/S0550-3213(00)00158-9
State	Published - Jul 3 2000

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title = "Scale anomaly and {"}soft{"} pomeron in QCD",

abstract = "We propose a new non-perturbative approach to hadronic interactions at high energies and small momentum transfer, which is based on the scale anomaly of QCD and emphasizes the r{\^o}le of semi-classical vacuum fields. We find that the hadron scattering amplitudes exhibit Regge behavior and evaluate the intercept α(0) of the corresponding trajectory. Both the intercept and the scale for the slope of the trajectory appear to be determined by the energy density of non-perturbative QCD vacuum (the gluon condensate). Numerically, we find Δ≡α(0)-1=0.08÷0.1 , consistent with the values ascribed phenomenologically to the {"}soft{"} pomeron. For arbitrary numbers of colors Nc and flavors Nf , Δ is found to be proportional to (Nf/Nc)2 ; however, in the large Nc (Nf fixed) limit, Δ∼Nc0 .",

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T1 - Scale anomaly and "soft" pomeron in QCD

AU - Kharzeev, Dmitri

AU - Levin, Eugene

PY - 2000/7/3

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N2 - We propose a new non-perturbative approach to hadronic interactions at high energies and small momentum transfer, which is based on the scale anomaly of QCD and emphasizes the rôle of semi-classical vacuum fields. We find that the hadron scattering amplitudes exhibit Regge behavior and evaluate the intercept α(0) of the corresponding trajectory. Both the intercept and the scale for the slope of the trajectory appear to be determined by the energy density of non-perturbative QCD vacuum (the gluon condensate). Numerically, we find Δ≡α(0)-1=0.08÷0.1 , consistent with the values ascribed phenomenologically to the "soft" pomeron. For arbitrary numbers of colors Nc and flavors Nf , Δ is found to be proportional to (Nf/Nc)2 ; however, in the large Nc (Nf fixed) limit, Δ∼Nc0 .

AB - We propose a new non-perturbative approach to hadronic interactions at high energies and small momentum transfer, which is based on the scale anomaly of QCD and emphasizes the rôle of semi-classical vacuum fields. We find that the hadron scattering amplitudes exhibit Regge behavior and evaluate the intercept α(0) of the corresponding trajectory. Both the intercept and the scale for the slope of the trajectory appear to be determined by the energy density of non-perturbative QCD vacuum (the gluon condensate). Numerically, we find Δ≡α(0)-1=0.08÷0.1 , consistent with the values ascribed phenomenologically to the "soft" pomeron. For arbitrary numbers of colors Nc and flavors Nf , Δ is found to be proportional to (Nf/Nc)2 ; however, in the large Nc (Nf fixed) limit, Δ∼Nc0 .

UR - https://www.scopus.com/pages/publications/0034600606

U2 - 10.1016/S0550-3213(00)00158-9

DO - 10.1016/S0550-3213(00)00158-9

M3 - Article

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SN - 0550-3213

VL - 578

SP - 351

EP - 363

JO - Nuclear Physics, Section B

JF - Nuclear Physics, Section B

IS - 1-2

ER -

Scale anomaly and "soft" pomeron in QCD

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