教育背景
1991年9月-1995年6月在北京師範大學物理系攻讀學士學位。
1995年9月-1998年6月在北京師範大學物理系攻讀碩士學位。
1998年9月-2002年7月在美國芝加哥攻讀博士學位。主要從事引力與相對論的研究。
工作經歷
2002年9月-2005年6月在葡萄牙里斯本科技大學物理系從事博士後工作,研究方向為引力與相對論。
2005年9月-2011年9月北京師範大學物理學系副教授。
2011年9月-北京師範大學物理學系教授。
研究方向
經典廣義相對論,黑洞物理,熱力學與時空關係。
主講課程
量子力學, 引力理論專題
發表的主要論文
Sijie Gao, Yuan Zhang, "Destroying extremal Kerr-Newman black holes with test particles",
Sijie Gao, "Addendum to 'general maximum entropy principle for self-gravitating perfect fluid'"
Sijie Gao, "General maximum entropy principle for self-gravitating perfect fluid"
Changchun Zhong, Sijie Gao, "Particle collisions near the cosmological horizon of a Reissner-Nordström de Sitter black hole"
Sijie Gao, Changchun Zhong,"Non-extremal Kerr black holes as particle accelerators"
Xiaojun Yue, Sijie Gao, "Stability of Brans-Dicke thin shell wormholes"
Xiangdong Zhang, Xiaoning Wu, Sijie Gao, "On Newman-Penrose constants of stationary electrovacuum spacetimes"
Xihao Deng, Sijie Gao, " Reversible Carnot Cycle outside a black hole", Chinese
Sijie Gao and Xiaoning Wu, "Proof of the entropy bound on dynamical horizons"
Sijie Gao and Jose' P. S. Lemos, "Collapsing and static thin massive charged dust shells in a Reissner-Nordström black hole background in higher dimensions"
Sijie Gao, Hongbao Zhang, "Can gravitational dynamics be obtained by diffeomorphism invariance of action?", Phys. Rev. D 75, 068501(2007).
Xiaoning Wu, Sijie Gao, "Tunneling Effect Near Weakly Isolated Horizon"
Goncalo A. S. Dias, Sijie Gao, Jose' P. S. Lemos, "Charged shells in Lovelock gravity: Hamiltonian treatment and physical implications"
Z. Zhao, T.Hua, L. Liu and S. Gao, "How to Define the Equality of Durations in Measurement of Time", Chin. Phys.
S. Gao & J. Lemos, "The Tolman-Bondi--Vaidya Spacetime: matching timelike dust to null dust", Phys.Rev.
S. Gao & J. Lemos, "Local conditions for the generalized covariant entropy bound"
S. Gao & J. Lemos, "The covariant entropy bound in gravitational collapse",
S. Gao, "First law of black hole mechanics in Einstein-Maxwell and Einstein-Yang-Mills theories", Phys.Rev.
S. Gao, "Late-time particle creation from gravitational collapse to an extremal Reissner-Nordstrom black hole", Phys.Rev.
S. Gao and R.M. Wald, "The 'physical process' version of the first law and the generalized second law for charged and rotating black holes", Phys.Rev.
S. Gao and R.M. Wald, "Theorems on gravitational time delay and related issues", Class. Quantum Grav.
S. Gao, Z. Kuang and C. Liang, "Clock rate synchronizable reference in curved spacetime", J. Math. Phys.