个人简介
李佳杰,男,甘肃嘉峪关人,理学博士,含弘研究员。2010年6月于兰州大学应用物理专业毕业,获理学学士学位;2015年9月于巴黎第十一大学核物理专业毕业,获物理学博士学位;2016年6月于兰州大学粒子物理与原子核物理专业毕业,获理学博士学位。2016年11月至2019年9月年于德国法兰克福歌德大学理论物理研究所从事博士后研究,洪堡学者。其后,分别于华南理工大学物理与光电学院和中国科学院近代物理研究所进行客座研究。2020年9月起,于西南大学物理科学与技术学院工作。
研究领域
(1)极端条件下原子核中的新结构与新物理;(2)引力波多信使天文学背景下致密星的结构与性质,以及双星并合相关物理;(3)QCD有效理论及强子-夸克相变相关物理。
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
1、Jia Jie Li*, Armen Sedrakian, and Mark Alford,
“Relativistic hybrid stars with sequential first-order phase transitions and heavy-baryon envelopes”
Physical Review D 101, 063022 (2020).
2、Jia Jie Li*, and Armen Sedrakian,
“Constraining compact star properties with nuclear saturation parameters”,
Physical Review C 100, 015809 (2019).
3、Jia Jie Li* and Armen Sedrakian,
“Implications from GW170817 for Delta-isobar admixed hypernuclear compact stars”,
The Astrophysical Journal Letters 874, L22 (2019).
4、Jia Jie Li, Wen Hui Long*, Jerome Margueron, and Nguyen Van Giai,
“48Si: An atypical nucleus?”,
Physics Letters B 788, 192–197 (2019).
5、Jia Jie Li*, Wen Hui Long, and Armen Sedrakian,
“Hypernuclear stars from relativistic Hartree-Fock density functional theory”,
The European Physical Journal A 54, 133 (2018).
6、Jia Jie Li*, Armen Sedrakian, and Fridolin Weber,
“Competition between delta isobars and hyperons and properties of compact stars”,
Physics Letters B 783, 234–240 (2018).
7、Jia Jie Li, Wen Hui Long*, Jun Ling Song, and Qiang Zhao,
“Pseudospin-orbit splitting and its consequences for the central depression in nuclear density”,
Physical Review C 93, 054312 (2016).
8、ia Jie Li*, Jerome Margueron, Wen Hui Long, and Nguyen Van Giai,
“Magicity of neutron-rich nuclei within relativistic self-consistent approaches”,
Physics Letters B 753, 97-102 (2016).
9、Jia Jie Li*, Jerome Margueron, Wen Hui Long, and Nguyen Van Giai,
“Pairing phase transition: A finite-temperature relativistic Hartree-Fock-Bogoliubov study”,
Physical Review C 92, 014302 (2015).
10、Jia Jie Li, Wen Hui Long*, Jerome Margueron, and Nguyen Van Giai,
“Superheavy magic structures in the relativistic Hartree-Fock Bogoliubov approach”,
Physics Letters B 732, 169-173 (2014).