论文标题
核子和较高的自旋baryon共振:ADS/QCD配置熵入侵
Nucleons and higher spin baryon resonances: an AdS/QCD configurational entropic incursion
论文作者
论文摘要
$ j^p = 1/2+$核的家族(N(939),N(1440),N(1710),N(1880),N(2100),n(2300),n(2300))和$ j^p = 3/2- $核(n(1520),n(1520),n(1700),n(1700),n(1875)和构造(2120)和nate oferation coint coint coint coint coint coint coint coint coint coint coint covile covile covile covile covile coint coint cortion covile cover。然后,当将Nucleon家族的CE与其$ J^p $ Spin以及其实验性质谱相关联时,将获得这些家族中每个家族的较高$ j^p $共振的质谱。然后将下一代核子共振的质谱与PDG中已经建立的Baryonic状态进行了比较。除了零温度外,还实施了有限温度分析。
Families of $J^P=1/2+$ nucleons (N(939), N(1440), N(1710), N(1880), N(2100), N(2300)) and $J^P=3/2-$ nucleons (N(1520), N(1700), N(1875) and N(2120)) are scrutinized from the point of view of the configurational entropy (CE). The mass spectra of higher $J^P$ resonances in each one of these families are then obtained when configurational-entropic Regge trajectories, that relate the CE of nucleon families to both their $J^P$ spin and also to their experimental mass spectra, are interpolated. The mass spectra of the next generation of nucleon resonances are then compared to already established baryonic states in PDG. Besides the zero temperature case, the finite temperature analysis is also implemented.
