Meson-∆and Meson-Nucleon-∆Transition Coupling Constants in the Soft-Wall Model of Holographic QCD at Finite Temperatures

Q2 Physics and Astronomy Letters in High Energy Physics Pub Date : 2022-11-18 DOI:10.31526/lhep.2022.326
N. Nasibova
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引用次数: 0

Abstract

In this paper, minimal coupling constants of meson-$\Delta$ baryon and meson-nucleon to $\Delta$ baryon transition have been investigated in the AdS/QCD soft-wall model at finite temperature limits. Initially, the right and left profile functions of $\Delta$ baryons have been calculated using the Rarita-Schwinger field in this model. After this, coupling constants have been written by taking into account the profile functions of thermal hadrons according to the zero-temperature case. Then, the temperature dependence graphs are plotted for strong couplings $g_{\rho \Delta \Delta}(T)$, $g_{a_{1} \Delta \Delta}(T)$ and $g_{\rho N \Delta}(T)$. As a result, it has been observed by an increase in the temperature, values of the minimal coupling constants decreased and approached zero nearby Hawking temperature.
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有限温度全息QCD软壁模型中的介子-∆和介子-核子-∆跃迁耦合常数
本文研究了有限温度下AdS/QCD软壁模型中介子- $\Delta$重子和介子-核子- $\Delta$重子跃迁的最小耦合常数。首先,利用该模型中的rita- schwinger场计算了$\Delta$重子的左右剖面函数。在此基础上,根据零温度情况,考虑热强子的剖面函数,写出了耦合常数。然后,绘制了强耦合$g_{\rho \Delta \Delta}(T)$, $g_{a_{1} \Delta \Delta}(T)$和$g_{\rho N \Delta}(T)$的温度依赖性图。结果表明,随着温度的升高,最小耦合常数的值减小,在霍金温度附近趋近于零。
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来源期刊
Letters in High Energy Physics
Letters in High Energy Physics Physics and Astronomy-Nuclear and High Energy Physics
CiteScore
1.20
自引率
0.00%
发文量
4
审稿时长
12 weeks
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