Complexity growth in a holographic QCD model

Wen-Bin Chang, De-fu Hou
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Abstract

In this work, we study the complexity growth in a holographic QCD model at finite temperature and chemical potential in D dimensions according to the complexity equals action conjecture. By inserting a fundamental string as a probe, we can analyze the properties of complexity growth. In this work, we utilize the complexity-action duality to study the evolution of complexity in a holographic QCD model at finite temperature and chemical potential. By inserting a fundamental string as a probe, we investigated the properties of complexity growth of this Einstein-Maxwell-scalar gravity system, which is affected by the string velocity, chemical potential, and temperature. Our results show that the complexity growth is maximized when the probe string is stationary, and it will decrease as the velocity of the string increases. When the string approaches relativistic velocities, the complexity growth always increases monotonically with respect to the chemical potential. Furthermore, we find that the complexity growth can be used to identify phase transitions and crossovers in the model.
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全息 QCD 模型的复杂性增长
在这项工作中,我们根据复杂性等于作用猜想,研究了在有限温度和化学势下D维全息QCD模型的复杂性增长。通过插入基本弦作为探针,我们可以分析复杂性增长的特性。在这项工作中,我们利用复杂性-作用对偶性来研究有限温度和化学势下全息QCD模型的复杂性演化。通过插入一个基本弦作为探针,我们研究了这个爱因斯坦-麦克斯韦-标量引力系统的复杂性增长特性,它受到弦速度、化学势和温度的影响。结果表明,当探测弦静止时,复杂性增长最大,随着弦速度的增加,复杂性增长减小。当弦的速度接近相对论速度时,复杂性的增长总是随着化学势的增加而单调增加。此外,我们还发现复杂性增长可以用来识别模型中的相变和交叉。
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