摘要
量子色动力学(Quantum Chromodynamics,QCD)在有限温度有限密度平面内具有丰富的相结构,关于相边界曲线、临界终点(Critical Endpoint,CEP)的位置以及各相的热力学性质、状态方程等的研究是目前理论和实验上的重点问题,寻找QCD相变信号,特别是确定CEP的位置,成为了相对论性重离子对撞机当前和未来实验计划的主要目标。本文简要小结在QCD的戴森-施温格方程(Dyson-Schwinger equation,DSE)方法框架下,关于手征对称性恢复相变和退禁闭相变研究的进展和主要结果,着重介绍关于DSE的截断方案的探索和完善、QCD相变的手征磁化率判据和推广的施温格(Schwinger)函数判据、及由之确定的手征和禁闭两种相变的相图。DSE方法预言的手征相变的CEP位置大致位于(T,μB)(110,600) MeV,与泛函重整化群等方法预言的结果一致。这些结果对于重离子对撞实验搜寻CEP信号具有指导价值。
The use of the relativistic heavy ion collision experiment has extended our insights into the diverse possibilities available to a truly strongly-interacting system.The main goal of this experiment is to describe the properties of the different phases of quantum chromodynamics(QCD)and to chart the QCD phase diagram on the Tmu plane.For the phase diagram,apart from the general phase boundary lines,some specific characteristics such as the possible critical endpoint(CEP),associated coexistence region,and strongly-coupling quark-gluon plasma(sQGP)have to be identified.Here,the CEP separates the first-order phase transition from the second-order transition(or crossover)when the case beyond the chiral limit is considered.However,convincing signals have not yet been obtained using the relativistic heavy ion collider(RHIC)experiment.Theoretically,strong interaction systems hold significant features:asymptotic freedom in the ultraviolet region,dynamical chiral symmetry breaking,and confinement in the infrared region.Such features can be uniformly displayed in the phase structure of the matter in the temperature T and chemical potential planes.Consequently,several investigations have been experimentally and theoretically performed.However,the strong coupling feature in the low-energy region prevents the use of perturbative calculation methods,which creates the need for the development of nonperturbative approaches.Additionally,lattice QCD simulations have been widely implemented;however,the"sign problem"delays the progress in the large chemical potential region.Therefore,the Dyson-Schwinger equation(DSE)equation method and functional renormalization group approach,which inherently include both dynamical chiral symmetry breaking(DCSB)and confinement,play an important role.The QCD DSE approach is a method based on the continuum quantum field theory.The new criteria were proposed based on the DSE and studied using the deconfinement and Chiral symmetry restoration phase transition of QCD.Currently,functional methods can be us
作者
高飞
刘玉鑫
GAO Fei;LIU Yuxin(School of Physics,Beijing Institution of Technology,Beijing 100081,China;School of Physics,Peking University,Beijing 100871,China)
出处
《核技术》
CAS
CSCD
北大核心
2023年第4期222-233,共12页
Nuclear Techniques
基金
国家自然科学基金(No.11175004,No.12175007)资助。
关键词
QCD相变
手征对称性动力学破缺
解禁闭
戴森-施温格方程
手征磁化率
QCD phase transition
Dynamical chiral symmetry breaking
Deconfinement
Dyson-Schwinger equations
Chiral susceptibility
