Simple Scenario of Photons Emission from Anti Charm–Gluon Interaction using QCD Theory

Journal of Kufa - Physics Pub Date : 2023-06-28 DOI:10.31257/2018/jkp/2023/v15.i01.11300

Saba Mustafa, Hadi J. M. Al-Agealy, Ahmad A. Al-Rubaiee

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Abstract

In this work, the chromodynamics (QCD) theory was used to investigate the photon rate which was produced in interactions of anti-charm with gluon. The simple quantum scenario theory was implemented to give the rate equation that describes the collision of quark and gluon at a chemical potential .The photon emission rate was evaluated from the anti-charm-gluon interaction of the cg → dγ collision at the temperature of the system in the range of 180 - 360 MeV with different critical temperatures (e.g. 116.575, 139.891, 157.377 and 174.863 MeV) with photons energy GeV under the assumption that fugacity of quark and gluon are =0.08 and =0.02 respectively . The photon rate increases with decreasing the coupling of quark and gluon according to a decrease in the temperature of the system from 360 MeV to 180 MeV. The photon emission spectrum was calculated and discussed using a photon energy of 1GeV to 10GeV with different critical temperatures. In terms of QCD theory, the quantitative accomplishment was made for a unique six-flavor number nf = 4 + 2 of photon emission. The photon rate reaches minimum with photon energy E=10 GeV, it reﬂects the less coupling for the cg → dγ interaction.

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用QCD理论研究反粲胶子相互作用中光子发射的简单情形

本文利用色动力学理论研究了反粲子与胶子相互作用时产生的光子速率。利用简单量子情景理论给出了描述夸克和胶子在化学势下碰撞的速率方程，并在系统温度180 ~ 360 MeV范围内，用不同的临界温度(如116.575、139.891、157.377和174.863 MeV)，光子能量GeV，假设夸克和胶子的逸度分别为0.08和0.02。光子速率随夸克和胶子耦合的减小而增大，系统温度从360 MeV降低到180 MeV。计算并讨论了不同临界温度下光子能量为1GeV ~ 10GeV的光子发射光谱。在QCD理论方面，对光子发射的唯一六味数nf = 4 + 2进行了定量研究。当光子能量E=10 GeV时，光子速率达到最小，这反映了cg→dγ相互作用的耦合较小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Kufa - Physics

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