Peng Yin, Xinlei Shang, Jinniu Hu, J. Y. Fu, Evgeny Epelbaum, Wei. Zuo
Phys. Rev. C, Vol. 108, 034002 (2023).
61.
Peng Yin, Xinlei Shang, Jinniu Hu, J. Y. Fu, Evgeny Epelbaum, Wei. Zuo
Phys. Rev. C, Vol. 108, 034002 (2023).
Phys. Rev. C, Vol. 108, 025809 (2023).
- C. Mondal, Kaixuan Huang, Jinniu Hu, B. K. Agrawal, Shashi K. Dhiman
Phys. Rev. C, Vol. 107, 015803 (2023).
59. Nonparametric Model for the Equations of State of a Neutron Star from Deep Neural Network
Wenjie Zhou, Jinniu Hu, Ying Zhang, and Hong Shen
The Astrophysical Journal, Vol. 950, 186 (2023).
58. Resolving the spurious-state problem in the Dirac equation with the finite-difference method
Ying Zhang, Yuxuan Bao, Hong Shen, and Jinniu Hu
Physical Review C, Vol. 106, L051303 (2022).
57.The Hadron-quark Crossover in Neutron Star within Gaussian Process Regression Method
Kaixuan Huang, Jinniu Hu, Ying Zhang, and Hong Shen
The Astrophysical Journal, Vol. 935, 88 (2022).
56. The nuclear symmetry energy from relativistic Brueckner-Hartree-Fock model
Chencan Wang, Jinniu Hu, Ying Zhang, and Hong Shen
Chinese Physics C, Vol. 46, 064108 (2022).
55. Investigation on the Hyperonic Star in Relativistic Mean-field Model
Kaixuan Huang, Jinniu Hu, Ying Zhang, and Hong Shen,
Nuclear Physics Review, Vol. 39, 135 (2022)
54. The Xi-nuclear potential constained by recent Xi^- hypernuclei experiments
Jinniu Hu, Ying Zhang, and Hong Shen,
Journal Physics G, Vol. 49, 025104 (2022).
53. Hadron-quark pasta phase in massive neutron star
Min Ju, Jinniu Hu, and Hong Shen
The Astrophysical Journal, Vol. 923, 250 (2021).
52. Neutron drop trapped in axially deformed external fields
Xiaohan Ding, Jinniu Hu, Ying Zhang, and Hong Shen
Nuclear Physics A, Vol. 1014, 122237 (2021).
51. Nuclear pasta and symmetry energy in the relativistic point-coupling model
Fan Ji, Jinniu Hu, and Hong Shen
Physical Review C, Vol. 103, 055802 (2021).
50. Hadron-quark mixed phase in the quark-meson coupling model
Min Ju, Xuhao Wu, Fan Ji, Jinniu Hu, and Hong Shen
Physical Review C, Vol. 103, 025809 (2021).
49. Impact of strong magnetic fields on the inner crust of neutron stars
Shishao Bao, Jinniu Hu, and Hong Shen
Physical Review C, Vol. 103, 015804 (2021).
48. Neutron star equation of state: QMF modeling and applications
Ang Li, Zhenyu Zhu, Enping Zhou, Jianming Dong, Jinniu Hu, and Chenjun Xia
Journal of High Energy Astrophysics, Vol. 28, 19 (2020).
47. The possibility of the secondary object in GW190814 as a neutron star
Kaixuan Huang, Jinniu Hu, Ying Zhang, and Hong Shen
The Astrophysical Journal Vol. 904, 39 (2020).
46. Origin of the evolution of spin-orbit and pseudospin-orbit splittings in neutron drops
Yinghui Ge, Ying Zhang, and Jinniu Hu
Physical Review C, Vol. 102, 044304 (2020).
Chencan Wang, Jinniu Hu, Ying Zhang, and Hong Shen
Journal of Physics G Vol. 47, 105108 (2020).
Ji Fan, Jinniu Hu, Shishao Bao, and Hong Shen
Physical Review C, Vol. 102, 015806 (2020).
43. Properties of Neutron Stars Described by a Relativistic Ab Initio Model
Chencan Wang, Jinniu Hu, Ying Zhang, and Hong Shen
The Astrophysical Journal Vol. 897, 96 (2020).
42. One-pion-exchange potential with contact terms from lattice QCD simulations
Jinniu Hu, Ying Zhang, Hong Shen, and Hiroshi Toki
Chinese Physics C, Vol. 44, 071002 (2020).
Jinniu Hu, Shishao Bao, Ying Zhang, Ken’ichiro Nakazato, Kohsuke Sumiyoshi, and Hong Shen
Progress of Theoretical and Experimental Physics, Vol. 2020, 043D01 (2020)
Hong Shen, Fan Ji, Jinniu Hu, and Kohsuke Sumiyoshi
The Astrophysical Journal Vol. 891, 148 (2020)
Ying Zhang, Peng Liu, and Jinniu Hu
International Journal of Modern Physics E Vol. 28, 1950094 (2019)
38. Single-$\Lambda^+_c$hypernuclei within a quark mean-field model
Linzhuo Wu, Jinniu Hu, and Hong Shen
Physical Review C, Vol 101, 024303 (2020)
37. Influence of density dependence of symmetry energy in hot and dense matter for supernova simulations
Kohsuke Sumiyoshi, Ken’ichiro Nakazato, Hideyuki Suzuki, Jinniu Hu, and Hong Shen
The Astrophysical Journal, Vol 887, 110 (2019).
36. Effects of pairing correlation on neutron drop
Yinghui Ge, Ying Zhang, and Jinniu Hu
Science China Physics, Mechanics & Astronomy, Vol 63, 242011 (2020).
35. The charge-dependent Bonn potentials with pseudovector pion-nucleon coupling
Chencan Wang, Jinniu Hu, Ying Zhang, and Hong Shen
Chinese Physics C, Vol. 43, 114107 (2019).
Jinniu Hu, Peiyu Wei, and Ying Zhang
Physics Letter B, Vol. 798, 134982 (2019).
33. Effects of nuclear symmetry energy and equation of state on neutron star properties
Ji Fan, Jinniu Hu, Shishao Bao, and Hong Shen
Physical Review C, Vol. 100, 045801 (2019).
32. Quark mean-field model for nuclear matter with or without bag
Zhenyu Zhu, Ang Li, Jinniu Hu, and Hong Shen
Physical Review C, Vol. 99, 025804 (2019).
31. Relativistic mean-field approach for Λ, Ξ, and Σ hypernuclei
Physical Review C, Vol. 98, 024316 (2018).
30. Nucleon properties in the Polyakov quark-meson model
Yingying Li, Jinniu Hu, and Hong Mao
Physical Review C, Vol. 97, 054313 (2018)
29. Massive neutron star with strangeness in a relativistic mean-field model with a high-density cutoff
Ying Zhang, Jinniu Hu, and Peng Liu
Physical Review C, Vol. 97, 015805 (2018)
28. Single-\Xi^- hypernuclei within a quark mean-field model
Jinniu Hu and Hong Shen
Physical Review C, Vol. 96, 054304 (2017)
27. Nuclear matter properties with nucleon-nucleon forces up to fifth order in the chiral expansion
Jinniu Hu, Ying Zhang, Evgeny Epelbaum, Ulf-G. Meissner, and Jie Meng
Physical Review C, Vol. 96, 034307 (2017)
Xueyong Xing, Jinniu Hu, and Hong Shen
Physical Review C, Vol. 95, 054310 (2017)
25. Tensor optimized antisymmetrized molecular dynamics for relativistic nuclear matter
Hiroshi Toki and Jinniu Hu
Chinese Journal of Physics, Vol. 55, 28 (2017)
24. Neutron stars within a relativistic central variational method
Jinniu Hu, Hong Shen, and HiroshiToki
Physical Review C, Vol. 95, 025804 (2017)
23. Phase transition in hot Lambda hypernuclei within the relativistic Thomas-Fermi approximation
Jinniu Hu, Zhaowen Zhang, ShishaoBao, and Hong Shen
Physical Review C, Vol. 94, 054325 (2016)
22. The properties of nuclear matter with lattice NN potential in relativistic Brueckner-Hartree-Fock theory
Jinniu Hu, Hiroshi Toki, and Hong Shen
Scientific Reports, Vol. 6, 35590 (2016)
21. Delta(1232) effects in density-dependent relativistic Hartree-Fock theory and neutron stars
Zhengyu Zhu, Ang Li, Jinniu Hu, and Hiroyuki Sagawa
Physical Review C, Vol. 94, 045803 (2016)
20. Quark mean field model with pion and gluon corrections
Xueyong Xing, Jinniu Hu, Hong Shen
Physical Review C, Vol. 94, 044308 (2016)
19. Relativistic Brueckner-Hartree-Fock Theory for Finite Nuclei
Shihang Shen, Jinniu Hu, Haozhao Liang, Jie Meng, Peter Ring, and Shuangquan Zhang
Chinese Physics Letters,Vol. 33 102103 (2016)
18. Nonrelativistic nucleon effective masses in nuclearmatter: Brueckner-Hartree-Fock model versus relativistic Hartree-Fock model
Ang Li, Jinniu Hu, Xinlei Shang, and Wei Zuo
Physics Review C, Vol. 93, 015803 (2016)
17. Effects of the symmetry energy on properties of neutronstar crusts near the neutrondrip density
Shishao Bao, Jinniu Hu, Zhaowen Zhang, and HongShen
Physics Review C, Vol. 90, 045802 (2014)
16. Symmetry energy of hot nuclei in the relativisticThomas-Fermi approximation
Zhaowen Zhang, Shishao Bao, Jinniu Hu, and Hong Shen
Physics Review C, Vol. 90, 054302 (2014)
15. Green's function method for single-particle resonantstates inrelativistic mean field theory
Tingting Sun, Shuangquan Zhang, Ying Zhang, Jinniu Hu, andJie Meng
Physics Review C, Vol. 90, 054321 (2014).
14. Effective Lambda-N potential from relativisticBrueckner-Hartree-Fock theory
Jinniu Hu, Emiko Hiyama,and Hiroshi Toki
Physics Review C, Vol. 90, 014309 (2014).
13. Extended quark mean-field model for neutron stars
Jinniu Hu, Ang Li, Hiroshi Toki and Wei Zuo
Physics Review C, Vol. 89, 025802 (2014).
12. Quark mean-field model for single and doubleLambda and Xi hypernuclei
Jinniu Hu, Ang Li, Hong Shen and Hiroshi Toki
Progress of Theoretical and Experimental Physics 013D02 (2014).
11. Relativistic description of magnetic moments in nucleiwith doubly closed shells plus or minus one nucleon
Jian Li, Jixuan We, Jinniu Hu, Peter Ring, and Jie Meng
Physics Review C, Vol. 88, 064307 (2013).
10. Extension of Hartree–Focktheory including tensor correlation in nuclear matter
Jinniu Hu, Hiroshi Toki and Yoko Ogawa
Progress of Theoretical and Experimental Physics 103D02 (2013).
9. Hartree-Fock Theory for Neutron Matter with BareTwo-body Interaction and Three-body Interaction
Jinniu Hu, Hiroshi Toki, Wen Wu and Hong Shen
Journal of Basic and Applied Physics, Vol. 1, 1(2012).
8. Skyrme-Hartree-Fock plus tensor correction for nuclearmatter
Yannan Wang, Jinniu Hu, Hiroshi Toki and Hong Shen
Progress of Theoretical Physics, Vol. 127, 739(2012).
7. The importance of pion and extendedBrueckner-Hartree-Fock theory
Hiroshi Toki, Yoko Ogawa and Jinniu Hu
Progress in Particle and Nuclear Physics, 67, 511(2012).
6. The Jastrow correlation function method in relativisticHartree-Fock model for nuclear matter
Jinniu Hu, Hiroshi Toki and Hong Shen
Journal of Physics, G. Vol. 38, 085105 (2011).
5. Role of Form Factor in Relativistic Hartree-FockApproach for Finite Nuclei
Wu Wen, Jinniu Hu,Hiroshi Toki and Hong Shen
Progress of Theoretical Physics, Vol. 123, 811 (2010).
4. Relativistic Hartree-Fock model with short rangecorrelation in nuclear matter
Jinniu Hu, Hiroshi Toki, Wu Wen and Hong Shen
Modern Physics Letters A, Vol. 25, 2008 (2010).
3. Relativistic Hartree-Fock model with bare nucleonnucleon interaction for neutronrich matter
Jinniu Hu, Hiroshi Toki, Wu Wen and Hong Shen
Physics Letters B, Vol. 687, 271 (2010).
2. The role of the form factor and short-rangecorrelation in the relativistic Hartree-Fock model for nuclear matter
Jinniu Hu, Hiroshi Toki, Wu Wen and Hong Shen
European Physical Journal A, Vol. 43, 323 (2010).
1. Extended relativistic chiral mean field model fornuclear matter
Jinniu Hu, Yoko Ogawa, Hiroshi Toki, Atsushi Hosaka, and Hong Shen
Physics Review C, Vol. 79, 024305(2009).
Proceeding
“Finite-Size Effects on Equation of State for Supernovae and Neutron Stars ”
Hong Shen, Shishao Bao, Xuhao Wu, and Jinniu Hu
JPS Conf. Proc. 20, 011033 (2018) (Proc. Workshop Quarks and Compact Stars 2017 (QCS2017) )
“Relativistic Effects in Nuclear Matter with Lattice NN Potential”
Jinniu Hu, Hong Shen, and Hiroshi Toki
Nucl. Phys. Rev. 34, 505 (2017).
“手征胶子修正夸克平均场模型”
邢学勇,胡金牛,申 虹
Nucl. Phys. Rev. 34, 493 (2017).
“原子核对称能对中子星壳层结构的影响”
鲍世绍,胡金牛,张肇文,申 虹
Nucl. Phys. Rev. 34, 387 (2017).
“Magnetic moments for nucleus withdouble-closed core +/- one nucleon”
Jian Li, Jixuan Wei, Jinniu Hu, and Jie Meng
AIP Conf. Proc. Volume 1533, page: 140-146 (Proceedings of 8th China-Japan JointNuclear Physics Symposium (CJJNPS)).
“Nuclear moments in covariant density functional theory”
Jie Meng, PengweiZhao, Shuanguan Zhang, J
PhysicaScripta, Vol. 89, 054029 (2014).
”Extended chiral Hartree-Fock model for nuclear matter”
Jinniu Hu, Hiroshi Toki and Hong Shen
AIP Conf. Proc. Volume 1388, page: 544-546 (Proceedings of 12th InternationalConference, Baryons’10. The Structure Of Baryons).
”Short range correlation in relativistic Hartree-Fockmodel for infinite nuclear matter”
Jinniu Hu, Hiroshi Toki, Wu Wen and Hong Shen
AIP Conf. Proc. Volume 1269, page: 348-350 (Proceedings of the 10thinternational
symposium on origin of matter and evolution of galaxies: OMEG-2010).
”Beyond Relativistic Hartree-Fock Model for nuclearmatter”
Jinniu Hu, Hiroshi Toki, Wu Wen and Hong Shen
HADRON AND NUCLEAR PHYSICS ’09 (Proceedings of ”Hadron and Nuclear Physics
09”), page: 370-373.
”Pion effect of nuclear matter in a Chiral Sigma Model”
Jinniu Hu,Yoko Ogawa, Hiroshi Toki, Atsushi Hosaka, and Hong Shen
Nuclear Physics Review Supplement, Vol. 26, 75(2009) (Proceeding of the 3 rdChina-
Japan-Korea Hadron and nuclear Physics 2008 Symposium, Lanzhou, China).