张乃波

时间:2021-03-09浏览:5692



  

张乃波副研究员/博士博士研究生导师

邮箱:naibozhang90@foxmail.com

 

研究方向

核物理;核天体物理中子星

基于中子星的观测数据约束暗物质性质;基于中子星的观测数据约束核物质的状态方程及对称能;转动对中子星结构的中子星影响;超子对中子星性质的影响等

 

工作经历:

2018.09--2020.12   山东大学,博士后

2021.04—至今  东南大学,副研究员

 

教育经历:

2012.09--2018.06   博士,等离子体物理,山东大学,导师:亓斌、夏利东、Bao-An Li

2016.11--2017.12   访问学者, 得克萨斯农工大学康默斯分校, 国家留学基金委联合培养博士生项目, 导师:Bao-An Li

2008.09--2012.06   学士,应用物理学,山东大学

 

讲授课程:

1. 主要从事大学物理教学工作

2. 与高等教育出版社合作建立大学物理习题课(线上)

 

荣誉奖项:

2022           江苏省“双创博士”

2018.06     亚洲核物理联合会暨亚太物理学会核物理分会青年科学家

 

科研项目:

1. 2024.01--2027.12  国家自然科学基金面上项目,通过反转中子星观测数据约束核物质夸克物质相变性质,No. 1237512052万元,主持

2. 2024.01--2026.12  东南大学至善青年学者30万元,主持

3. 2021.01--2023.12  国家自然科学基金青年科学基金,基于中子星观测数据约束高密核物质状态方程及对称能,No. 1200511824万元,主持,已结题

4. 2021.01--2023.12  山东省自然科学基金青年基金,基于中子星观测数据限制核物质高密对称能的理论探索,No. ZR2020QA08515万元,主持

5. 2019.05--2020.09  中国博士后科学基金会面上资助,天文观测对中子星物质状态方程及对称能限制的理论探索,No. 2019M6523588万元, 主持,已结题

 

部分学术成果:

1. Properties of first-order hadron-quark phase transition from inverting neutron star observables

Nai-Bo Zhang and Bao-An Li, Physical Review C, 108, 025803 (2023)

 

2. Impact of symmetry energy on sound speed and spinodal decomposition in dense neutron-rich matter

Nai-Bo Zhang and Bao-An Li, Eur. Phys. J. A, 59, 86 (2023)

 

3. Impact of NICER’s radius measurement of PSR J0740+6620 on nuclear symmetry energy at suprasaturation densities,

Nai-Bo Zhang and Bao-An Li, Astrophysical Journal, 921, 111 (2021)

 

4. GW190814’s secondary component with mass (2.50  2.67) M as a super-fast pulsar

Nai-Bo Zhang and Bao-An Li, Astrophysical Journal, 902, 38 (2020)

 

5. Constraints on the muon fraction and density profile in neutron stars,

Nai-Bo Zhang and Bao-An Li, Astrophysical Journal, 893,61 (2020);

 

6. The key factor to determine the relation between radius and tidal deformability of neutron star: slope of symmetry energy,

Nai-Bo Zhang, Bin, Qi, and Shou-Yu Wang, Chinese Physics C, 44, 064103 (2020);

 

7. Delineating effects of nuclear symmetry energy on the radii and tidal polarizabilities of neutron stars,

Nai-Bo Zhang and Bao-An Li, Journal of Physics G: Nuclear and Particle Physics, 46, 014002 (2019);

 

8. Extracting nuclear symmetry energies at high densities from observations of neutron stars and gravitational waves,

Nai-Bo Zhang and Bao-An Li, The European Physical Journal A, 55, 39 (2019);

 

9. Implications of the Mass M=2.17 Msun of PSR J0740+6620 on the Equation of State of Super-dense Neutron-rich Nuclear Matter,

Nai-Bo Zhang and Bao-An Li, Astrophysical Journal, 879, 99 (2019);

 

10. Astrophysical constraints on a parametric equation of state for neutron-rich nucleonic matter,

Nai-Bo Zhang and Bao-An Li, Nuclear Science and Techniques, 29, 178 (2018);

 

11. Combined Constraints on the Equation of State of Dense Neutron-rich Matter from Terrestrial Nuclear Experiments and Observations of Neutron Stars,

Nai-Bo Zhang, Bao-An Li, and Jun Xu, Astrophysical Journal, 859, 90 (2018);

 

12. How tightly is the nuclear symmetry energy constrained by a unitary Fermi gas?

Nai-Bo Zhang, Bao-Jun Cai, Bao-An Li, William G. Newton, and Jun Xu, Nuclear Science and Techniques, 28, 181 (2017);

 

13. Neutrino emissivity of the nucleon direct URCA process for rotational traditional and hyperonic neutron stars,

Nai-Bo Zhang, Shou-Yu Wang, Bin Qi, Jian-Hua Gao, and Bao-Yuan Sun, Chinese Physics C, 41, 075101 (2017);

 

14. Keplerian frequency of uniformly rotating neutron stars in relativistic mean field theory,

Nai-Bo Zhang, Bin Qi, Shou-Yu Wang, Shuai-Liang Ge, and Bao-Yuan Sun, International Journal of Modern Physics E, 22, 1350085 (2013);

 

综述文章

15. Progress in Constraining Nuclear Symmetry Energy Using Neutron Star Observables Since GW170817,

Bao-An Li, Bao-Jun Cai, Wen-Jie Xie, and Nai-Bo Zhang, Universe, 7, 182 (2021)

 

16. Towards understanding astrophysical effects of nuclear symmetry energy,

Bao-An Li, Plamen G. Krastev, De-Hua Wen, and Nai-Bo Zhang, The European Physical Journal A, 55, 117 (2019);

 

教研论文

17. 大学物理规律名称辨析《大学物理》,张勇、张乃波等,已接收

18. 2023版与2010版《理工类大学物理课程教学基本要求》的比较与启示,《物理与工程》,张勇、张乃波,已接收