张林助理教授到岗
张林助理教授到岗
个人简介
张林,男,籍贯河南省博爱县;主要研究方向为全息QCD和高能核物理,参与项目2项。
研究领域
在低能标区域量子色动力学(QCD)具有非微扰性质,所以人们发展了各种非微扰方法,全息QCD就是这些非微扰方法中的一种。它基于AdS/CFT对偶原理,将这种强弱对偶应用到QCD的研究中,从而允许我们通过求解弱耦合的引力系统,得到强耦合的场论的信息。目前我使用自下而上的全息QCD模型,研究真空中的强子、胶球的质量谱,高温高密度等极端条件下的强相互作用物质的性质等。
教育背景
2009/09 - 2013/07 华南师范大学,理学学士
2013/09 - 2019/06 中国科学院理论物理研究所,理学博士
工作经历
2019/07 - 2022/10 中国科学院大学,博士后
2022/11-至今 中山大学理学院,助理教授
代表性成果
[1] Z. Fang, Y.-L. Wu, and L. Zhang, “Chiral phase transition and meson spectrum in improved soft-wall AdS/QCD,” Phys. Lett. B 762 (2016) 86–95, arXiv:1604.02571 [hep-ph].
[2] Z. Fang, Y.-L. Wu, and L. Zhang, “Chiral Phase Transition with 2+1 quark flavors in an improved soft-wall AdS/QCD Model,” Phys. Rev. D 98 no. 11, (2018) 114003, arXiv:1805.05019 [hep-ph].
[3] Z. Fang, Y.-L. Wu, and L. Zhang, “Chiral phase transition and QCD phase diagram from AdS/QCD,” Phys. Rev. D 99 no. 3, (2019) 034028, arXiv:1810.12525 [hep-ph].
[4] Z.-L. Liang, L. Zhang, P. Zhang, and F. Zheng, “The wavefunction reconstruction effects in calculation of DM-induced electronic transition in semiconductor targets,” JHEP 01 (2019) 149, arXiv:1810.13394 [cond-mat.mtrl-sci].
[5] Z. Fang, Y.-L. Wu, and L. Zhang, “Octet meson spectra and chiral phase diagram in the improved soft-wall AdS/QCD model,” Phys. Rev. D 100 no. 5, (2019) 054008, arXiv:1904.04695 [hep-ph].
[6] Z.-L. Liang, L. Zhang, F. Zheng, and P. Zhang, “Describing Migdal effects in diamond crystal with atom-centered localized Wannier functions,” Phys. Rev. D 102 no. 4, (2020) 043007, arXiv:1912.13484 [cond-mat.mes-hall].
[7] X. Chen, L. Zhang, D. Li, D. Hou, and M. Huang, “Gluodynamics and deconfinement phase transition under rotation from holography,” JHEP 07 (2021) 132, arXiv:2010.14478 [hep-ph].
[8] L. Zhang, C. Chen, Y. Chen, and M. Huang, “Spectra of glueballs and oddballs and the equation of state from holographic QCD,” Phys. Rev. D 105 no. 2, (2022) 026020, arXiv:2106.10748 [hep-ph].
[9] X. Chen, L. Zhang, and D. Hou, “Running coupling constant at finite chemical potential and magnetic field from holography *,” Chin. Phys. C 46 no. 7, (2022) 073101, arXiv:2108.03840 [hep-ph].
[10] L. Zhang and M. Huang, “Holographic cold dense matter constrained by neutron stars,” arXiv:2209.00766 [nucl-th].
