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Hai Yang/ T.D.Lee Postdoctoral Scholar
Tsung-Dao Lee Institute
N624

Educational Background

  • 2012- 2016, Guangxi University , Bachelor
  • 2016- 2023, University of Chinese Academy of Sciences , Doctor

Work Experience

  • 2023-Now, Tsung-Dao Lee Institute, Shanghai Jiao Tong University, Postdoc

Research Interests

  • Computational Astrophysics; Black hole accretion and outflow (wind and jet); AGNs; particle acceleration and radiation

Major Research Projects

  • H. Yang, F. Yuan, Y. F. Yuan, C. White, Numerical simulation of hot accretion flows (IV): effects of black hole spin and magnetic field strength on the wind and the comparison between wind and jet properties. Astrophys. J. 914, 131 (2021)
  • H. Yang, F. Yuan, K. Tom, J. Dai, The properties of wind and jet from a super-Eddington accretion flow around a supermassive black hole. Submitted to MNRAS (https://ui.adsabs.harvard.edu/abs/2022arXiv221110710Y/abstract)
  • Čemeljić. Miljenko, H. Yang (co-first author), F. Yuan, H. Shang, Formation of Episodic Jets and Associated Flares from Black Hole Accretion Systems. Astrophys. J. 933, 55 (2022)
  • H. Yang, F. Yuan, H. Li, Yosuke Mizuno, F. Guo, Rusen Lu, Luis C. Ho, Jieshuang Wang and Defu Bu, Modeling the inner part of M87 jet: confronting jet morphology with theory. Submitted to Science (https://ui.adsabs.harvard.edu/abs/2022arXiv220605661Y/abstract)
  • F. Yuan, H. Wang, H. Yang, The Accretion Flow in M87 is Really MAD. Astrophys. J. 924, 124 (2022)
  • Mosallanezhad Amin, Bu De-Fu, Čemeljić, Miljenko, Zeraatgari, Fatemeh Zahra, Hai Yang, Mei Liquan, Numerical Simulation of Hot Accretion Flow around Bondi Radius. Astrophys. J. 939, 12 (2022)

Representative Papers And Monographs

  • H. Yang, F. Yuan, Y. F. Yuan, C. White, Numerical simulation of hot accretion flows (IV): effects of black hole spin and magnetic field strength on the wind and the comparison between wind and jet properties. Astrophys. J. 914, 131 (2021)
  • H. Yang, F. Yuan, K. Tom, J. Dai, The properties of wind and jet from a super-Eddington accretion flow around a supermassive black hole. Submitted to MNRAS (https://ui.adsabs.harvard.edu/abs/2022arXiv221110710Y/abstract)
  • Čemeljić. Miljenko, H. Yang (co-first author), F. Yuan, H. Shang, Formation of Episodic Jets and Associated Flares from Black Hole Accretion Systems. Astrophys. J. 933, 55 (2022)
  • H. Yang, F. Yuan, H. Li, Yosuke Mizuno, F. Guo, Rusen Lu, Luis C. Ho, Jieshuang Wang and Defu Bu, Modeling the inner part of M87 jet: confronting jet morphology with theory. Submitted to Science (https://ui.adsabs.harvard.edu/abs/2022arXiv220605661Y/abstract)
  • F. Yuan, H. Wang, H. Yang, The Accretion Flow in M87 is Really MAD. Astrophys. J. 924, 124 (2022)
  • Mosallanezhad Amin, Bu De-Fu, Čemeljić, Miljenko, Zeraatgari, Fatemeh Zahra, Hai Yang, Mei Liquan, Numerical Simulation of Hot Accretion Flow around Bondi Radius. Astrophys. J. 939, 12 (2022)