Can Tang scite author profile

We deliver a scheme to compute the quark propagator and the quark-gluon interaction vertex through the coupled Dyson-Schwinger equations (DSEs) of QCD. We take the three-gluon vertex into account in our calculations, and implement the gluon propagator and the running coupling function fitted by the solutions of their respective DSEs. We obtain the momentum and current mass dependence of the quark propagator and the quark-gluon vertex, and the chiral quark condensate which agrees with previous results excellently. We also compute the quark-photon vertex within this scheme and give the anomalous chromo-and electro-magnetic moment of quark. The obtained results are consistent with previous ones very well. These applications manifest that the scheme is realistic and then practical for explaining the QCD-related phenomena.

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A universal constraint on the infrared behavior of the ghost propagator in QCD

Gao¹,

Tang²,

Liu³

2017

Physics Letters B

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With proposing a unified description of the fields variation at the level of generating functional, we obtain a new identity for the quark-gluon interaction vertex based on gauge symmetry, which is similar to the Slavnov-Taylor Identities(STIs) based on the Becchi-Rouet-Stora-Tyutin transformation. With these identities, we find that in Landau gauge, the dressing function of the ghost propagator approaches to a constant as its momentum goes to zero, which provides a strong constraint on the infrared behaviour of ghost propagator.

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Can Tang

Practical scheme from QCD to phenomena via Dyson-Schwinger equations

A universal constraint on the infrared behavior of the ghost propagator in QCD

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