Effects of Screening on Quark-Antiquark Cross Sections in Quark-Gluon Plasma

Abstract

Lowest-order cross sections for q q production and annihilation can be approximately corrected for higher-order QCD effects by using a corrective K-factor. For energies where quark masses cannot be ignored, the K-factor is dominated by the wave function distortion arising from the initial- or final-state interaction between the quark and the antiquark. We evaluate this K-factor for q q production and annihilation in a quark-gluon plasma by taking into account the effects of Debye screening through a color-Yukawa potential. We present the corrective K-factor as a function of dimensionless parameters which may find applications in other systems involving attractive or repulsive Yukawa interactions. Prominent peaks of the K-factor occur for an attractive q- q color-Yukawa interaction with Debye screening lengths of 0.835 and 3.23 times the Bohr radius, corresponding to two lowest s-wave q q bound states moving into the continuum to become q q resonances as the Debye screening length decreases. These resonances, especially the c c and the b b resonances, may be utilized to search for the quark-gluon plasma by studying the systematics of the temperature dependence of heavy-quark pair production just above the threshold.

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