孙亭亭

发布时间:2022年02月27日浏览次数:

基本信息

姓名:孙亭亭籍贯:山东济宁学历:博士

专业:粒子物理与原子核物理 职称:副教授

研究领域:核结构理论、核天体物理

邮箱:ttsunphy@zzu.edu.cn

通讯地址:河南省郑州市高新区郑州大学物理学院A楼508室

教育经历:

(1)2009.9-2015.1,北京大学,物理学院,博士,导师:孟杰教授

(2)2005.9-2009.6,西南大学,物理科学与技术学院,本科

工作经历

(1)2020.1-今,郑州大学,物理学院,副教授

(2)2016.1-2019.12,郑州大学,物理学院,校聘副教授

(3)2015.10-2016.4,日本理化学研究所,仁科中心,博士后

(4)2015.5-2015. 12,郑州大学,物理工程学院,讲师

个人荣誉:

(1)2024,河南省优秀青年

(2)2021,郑州大学青年骨干教师

(3)2020,郑州大学青年拔尖人才

研究方向:

(1)奇特原子核的结构性质,包括:连续谱效应、单粒子共振态、形变晕等

(2)超核的研究,包括:重子重子相互作用、超核结构等

(3)中子星、核物质

(4)自旋赝自旋对称性

(5)协变密度泛函理论,格林函数方法等

主持科研项目

(1)国家自然科学基金大科学装置联合基金培育项目,U2032141,2021.1-2023.12,60万元,结题;

(2)国家自然科学基金青年项目,11505157,2016.1-2018.12,18万元,结题;

(3)河南省自然科学优秀青年基金项目,2024.1-2026.12,25万元,在研;

(4)广西核物理与核技术重点实验室开放课题,NLK2022-02,2023.1-2024.12,5万元,在研;

(5)河南省自然科学基金面上项目,202300410479,2020.1-2021.12,10万元,结项;

(6)郑州大学优秀青年人才创新团队,2022.1-2024.12,20万元,在研;

(7)郑州大学青年骨干教师培养计划,2021ZDGGJS051,2021.1-2023.12,结项;

(8)郑州大学青年教师基础研究培育基金,JC202041041,2020.8-2021.8,20万元,结项;

(9)郑州大学物理学科推进计划培育项目,2019.8-2022.8,40万元,结项。

学生培养:

(1)在读硕士研究生:

2023级:孙伟、张琦

2022级:黄紫丹

2021级:李丙新

(2)已毕业硕士生:

2020级:霍恩波(赴哈尔滨工业大学读博)、靳浩淼(获国家奖学金)

2019级:孙乾坤(赴上海应用物理研究所读博)

2018级:陈晨(赴兰州大学读博)、王雅甜

2017级:钱龙、陈程

2016级:刘子鑫(获国家奖学金、赴近物所读博)

2015级:任素红(获国家奖学金)

代表性论文:(按时间倒序排列,*代表通讯作者)

1.T.-T. Sun, and Z. P. Li*, Continuum relativistic Hartree-Bogoliubov theory for weakly bound deformed nuclei in Green’s function method, submitted to PRC.

2.T.-T. Sun, Y. Tanimura, H. Sagawa, and E. Hiyama*, CSB effect in single-Λhypernuclei, submitted to PLB.

3.T.-T. Sun*, and Z. P. Li, Uniform descriptions of pseudospin symmetries in bound and resonant states, arXiv:2311.14765, submitted to PLB.

4.T.-T. Sun*, B.-X. Li, and K. Liu, Probing spin and pseudospin symmetries in deformed nuclei by Green’s function method, PRC 109, 014323 (2024).

5.T.-T. Sun*, Z. P. Li*, and P. Ring*, Conservation and breaking of pseudospin symmetry, Phys. Lett. B 847, 138320 (2023).

6.E.-B. Huo, K.-R. Li, X. Y. Qu, Y. Zhang, and T.-T. Sun*, Continuum Skyrme Hartree-Fock-Bogoliubov theory with Green’s function method for neutron-rich Ca, Ni, Zr, Sn isotopes, Nucl. Sci. Tech. 34, 105 (2023).

7.C.-J. Xia*, H.-M. Jin, and T.-T. Sun, Quarkyonic matter and quarkyonic stars in an extended relativistic mean field, Phys. Rev. D 108, 054013 (2023).

8.Q.-K. Sun, T.-T. Sun*, W. Zhang, S.-S. Zhang, and C. Chen, Possible shape coexistences in the odd-A Ne isotopes and the impurity effects ofΛhyperon, Chin. Phys. C 46(7), 074106 (2022).

9.H.-M. Jin, C.-J. Xia*, T.-T. Sun*, and G.-X. Peng*, Quark condensate and chiral symmetry restoration in neutron stars, Phys. Lett. B 829, 137121 (2022).

10.Y. Tanimura, H. Sagawa,T.-T. Sun, and Emiko Hiyama*,Ξhypernuclei ^15_ΞC and ^12_ΞBe, and theΞNtwo-body interaction, Phys. Rev. C 105, 044324 (2022).

11.Y.-T. Wang, and T.-T. Sun*, Searching for single-particle resonances with the Green’s function method, Nucl. Sci. Tech. 32, 46 (2021).

12.W. Zhang, W.-L. Lv, and T.-T. Sun*, Shell corrections with finite temperature covariant density functional theory, Chin. Phys. C 45, 024107 (2021).

13.C. Chen, Q.-K. Sun, Y.-X. Li, and T.-T. Sun*, Possible shape coexistence in Ne isotopes and the impurity effect ofΛhyperon, Sci. China-Phys. Mech. Astron. 64(8), 282011(2021).

14.T.-T. Sun*, L. Qian, C. Chen, P. Ring, and Z. P. Li*, Green's function method for the single-particle resonances in a deformed Dirac equation. Phys. Rev. C 101,014321 (2020).

15.C. Chen, Z. P. Li, Y.-X. Li, and T.-T. Sun*, Study of single-particle resonant states with Green’s function method, Chin. Phys. C 44,084105 (2020).

16.T.-T. Sun, S.-S. Zhang, Q.-L. Zhang, and C.-J. Xia*, Strangeness and resonance in compact stars with relativistic-mean-field models, Phys. Rev. D 99, 023004 (2019).

17.T.-T. Sun*, Z.-X. Liu, L. Qian, B. Wang, and W. Zhang, Continuum Skyrme Hartree-Fock-Bogoliubov theory with Green’s function method for odd-A nuclei, Phys. Rev. C 99, 054316 (2019).

18.T.-T. Sun*, W.-L. Lu, L. Qian, and Y.-X. Li, Green’s function method for the spin and pseudospin symmetries in the single-particle resonant states, Phys. Rev. C 99, 034310 (2019).

19.C.-J. Xia*, G.-X. Peng*, T.-T. Sun*, W.-L. Guo*, D.-H. Lu*, and P. Jaikumar*, Interface effects of strange quark matter with density dependent quark masses, Phys. Rev. D 98, 034031 (2018).

20.Z.-X. Liu, C.-J. Xia, W.-L. Lu, Y.-X. Li, J. N. Hu*, and T.-T. Sun*, Relativistic mean-field approach forΛ,Ξ, andΣhypernuclei, Phys. Rev. C 98,024316 (2018).

21.T.-T. Sun, C.-J. Xia*, S.-S. Zhang, and M. S. Smith, Massive neutron stars andΛ-hypernuclei in relativistic mean field models, Chin. Phys. C42, 025101 (2018).

22.W.-L. Lu, and T.-T. Sun*, Spin and pseudospin symmetries inΛhypernuclei, Nucl. Phys. Rev. 35, 531(2018).

23.Z.-X. Liu, C.-J. Xia, and T.-T. Sun*, Relativistic mean-field approach forΛ,Ξ, andΣhypernuclei, Nucl. Phys. Rev. 35, 523 (2018).

24.T.-T. Sun*, W.-L. Lu, and S.-S. Zhang, Spin and pseudospin symmetries in the single-Λspectrum, Phys. Rev. C 96, 044312(2017).

25.W.-L. Lu, Z.-X. Liu, S.-H. Ren, W. Zhang, and T.-T. Sun*, (Pseudo)spin symmetry in the single-neutron spectrum ofΛhypernuclei, J. Phys. G: Nucl. Part. Phys., 44, 125104 (2017).

26.S.-H. Ren, T.-T. Sun*, and W. Zhang, Green's function relativistic mean field theory for Lambda hypernuclei, Phys. Rev. C, 95, 054318 (2017).

27.M. Shi, X.-X. Shi, Z.-M. Niu, T.-T. Sun, and J.-Y. Guo*, Relativistic extension of the complex scaled Green's function method for resonances in deformed nuclei, Eur. Phys. J. A 53, 40 (2017).

28.T.-T. Sun, E. Hiyama*, H. Sagawa, H.-J. Schulze, and J. Meng, Mean field approaches for Xi^- hypernuclei and current experimental data, Phys. Rev. C, 94, 064319(2016).

29.T.-T. Sun, Z.-M. Niu, and S. Q. Zhang*, Single-proton resonant state and the isospin dependence investigated by the Green's function relativistic mean field theory, J. Phys. G: Nucl. Part. Phys. 43,045107 (2016).

30.孙亭亭*,格林函数协变密度泛函理论及其应用,中国科学:物理学力学天文学,46,012006(2016).

31.T.-T. Sun, S. Q. Zhang, Y. Zhang, J. N. Hu, and J. Meng*, Green's function method for single-particle resonant states in relativistic mean field theory, Phys. Rev. C 90, 054321(2014).

32.T.-T. Sun, B. Y. Sun, and J. Meng*, BCS-BEC crossover in nuclear matter with the relativistic Hartree-Bogoliubov theory, Phys. Rev. C 86, 014305(2012).


 

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