A 论文 [1] 赵先锋,洪时明,刘福生. 压力对碳氢氧超临界流体中碳的溶解度的影响[J]. 高压物理学报, 2003,17(2):101-105. (EI) [2] 赵先锋. 相对运动的矢量图示解法 [J]. 数学.力学.物理学.高新技术研究进展, 2006,11:366-368. [3] 赵先锋, 王顺金, 张华, 贾焕玉.  和 介子对中子星物质的影响 [J]. 高能物理与核物理, 2007, 31 (4): 345-349. (SCI) [4] 赵先锋, 王顺金, 张华, 贾焕玉.  和 介子对有限温度中子星物质的影响 [J]. 高能物理与核物理, 2007, 31 (6): 532-537. (SCI) [5] 赵先锋. 非平行平面薄膜反射光干涉公式的推导[J]. 滁州学院学报, 2009,11(1):53-54. [6] 赵先锋, 王顺金, 张华, 贾焕玉. 和介子对中子星转动惯量的影响 [J]. 四川大学学报 (自然科学版), 2009, 46 (3)5: 743-747. [7] 赵先锋, 张华. 温度对前身中子星转动惯量的影响 [J]. 四川大学学报 (自然科学版), 2010, 47 (3)5 : 579-584. [8] 赵先锋. 物理学史料在大学物理教学中的作用[J]. 滁州学院学报, 2010,12(2)4:102-103. [9] Zhao Xian-Feng, Zhang Hua. Effect of strange mesons on the moment of inertia of proto neutron star [J]. Journal of Sichuan University ( Natural Science Edition), 2010, 47 (4)7: 825-830. [10] 赵先锋, 张华. 自相互作用对超子星转变密度的影响 [J] . 山东大学学报 (理学版), 2010, 45 (9)9: 96-100. [11] Zhao Xian-Feng. The gravitational redshift of a proto neutron star [J]. Chinese Physics Letters, 2010, 27 (9)9: 099701.(SCI, IF=0.731) [12] Zhao Xian-Feng. Zhang Hua, Jia Huan-Yu. On the moment of inertia of a proto neutron star [J]. Chinese Physics C, 2010, 34 (10)10: 1587-1592. (SCI, IF=0.272) [13] Zhao Xian-Feng. Zhang Hua. Effect of the mesons σ* and Φ and the variety of UΣ(N) on the transition density of hyperon stars [J]. Chinese Physics C, 2010, 34 (11)11: 1704-1708. (SCI, IF=0.272) [14] Zhao Xian-Feng. Constraining the gravitational redshift of a neutron star from the Σ-meson well depth [J]. Astrophysics and Space Science, 2011, 332(1)3: 139–144.(SCI, IF=1.686) [15] Zhao Xian-Feng. Effects of andmesons on surface redshift of a neutron star [J]. Chinese Physics B, 2011, 20 (3)3: 039701. (SCI, IF=1.376) [16] Zhao Xian-Feng. Potential depth of Σ in nuclear matter and moment of inertia of a proto neutron star [J]. 天文学报, 2011,52(2)3: 126-135. [17] 赵先锋. 相对论平均场理论中耦合常数g_ρ的确定与研究 [J]. 中山大学学报 (自然科学版), 2011, 50(2)3: 31-35. [18] Zhao Xian-Feng. Temprature effect of the gravitational redshist of a proto neutron star [J]. Chinese Journal of Physics, 2011, 49(2)4: 621-628. (SCI, IF=0.448) [19] 赵先锋, 张华. 超子同位旋相互作用对中子星转动惯量的影响 [J]. 云南大学学报 (自然科学版),2011, 33(3)5: 303-307. [20] 赵先锋, 张华. 超子同位旋相互作用能对超子星转变密度的影响 [J]. 吉林大学学报 (理学版), 2011, 49(3)5: 528-532. [21] 赵先锋. 变重力加速度对自由落体落地速度的影响[J]. 滁州学院学报, 2011,13(2)4:120-122. [22] Zhao Xian-feng. Potential depth of Σ-hyperons in saturated nuclear matter and rotational inertia of proto neutron star [J]. Chinese Astronomy and Astrophysics, 2011, 35(7月): 285-294. [23] Zhao Xian-Feng. Constraining the surface gravitational redshift of proto neutron stars with new nucleon coupling constants [J]. International Journal of Theoretical Physics, 2011, 50(9)9: 2951-2960.(SCI, IF=0.845) [24] Zhao Xian-Feng. The influence of the hyperon coupling constants on the gravitational redshift of a proto neutron star [J]. Journal of Sichuan University (Natural Science Edition), 2011, 48(4)7: 865-868. [25] Zhao Xian-Feng. The potential well depth U^(N)_Σ constraints on the surface gravitational redshift of a proto neutron star [J]. Journal of Astrophysics and Astronomy. 2011, 32(3)9: 391-399. (SCI, IF=0.4) [26] 赵先锋,方春阳,王大树,汪杰. 相对论平均场理论中的核子耦合参数分析[J]. 滁州学院学报,2011, 13(5)10: 45-47. [27] Zhao Xian-Feng, Jia Huan-Yu. Mass of the neutron star PSR J1614-2230 [J]. Physical Review C, 2012, 85(6)6: 065806. (SCI, IF=3.308) [28] Zhao Xian-Feng, Dong Ai-Jun, Jia Huan-Yu. The mass calculations for the neutron star PSR J1614-2230 [J]. Acta Physica Polonica B, 2012, 43(8)8: 1783-1789. (SCI, IF=0.901) [29] Zhao Xian-Feng, Jia Huan-Yu. A set of new nucleon coupling constants and the proto neutron star matter [J]. Chinese Physics B, 2012, 21(8)8: 089701. (SCI, IF=1.376) [30] Zhao Xian-Feng, Jia Huan-Yu. Constraints on the moment of inertia of a proto neutron star from the hyperon coupling constants [J]. Journal of astrophysics and astronomy, 2012, 33(3)9: 303-310. (SCI, IF=0.4) [31] Xian-Feng Zhao, Li Zhang. The Σ Well Depth and the Proto Neutron Star Matter [J]. International Journal of Theoretical Physics, 2013, 52(2)2: 429-440.(SCI, IF=0.845) [32] Zhao Xian-Feng, Dong Ai-Jun, Jia Huan-Yu. Constraints on the transition density of a hyperon star with a set of new nucleon coupling constants [J]. Chinese Journal of Physics, 2013, 51(1)2:44-55. (SCI, IF=0.448) [33] Xian-Feng Zhao. The surface gravitational redshift of the neutron star PSR J1614-2230 [J]. Acta Physica Polonica B, 2013,44(2)2:211-219. (SCI, IF=0.901) [34] Xian-Feng Zhao, Huan-Yu Jia. Constraints the properties of neutron star matter from the mass of neutron star PSR J1614-2230[J]. Astrophysics and Space Science, 2013, 346(1)7: 131-139. (SCI, IF=1.686) [35] Xian-Feng Zhao. The surface gravitational redshift of the neutron star 4U 1820-30[J]. Chinese Journal of Physics, 2013, 51(5)10: 936-944. (SCI, IF=0.448) [36] Xian-Feng Zhao, Huan-Yu Jia. The surface gravitational redshift of the neutron star PSR B2303+46 [J]. Bulletin of the Astronomical Society of India, 2013,41(4)12:291-298. (SCI, IF=0.31) [37] Xian-Feng Zhao, Huan-Yu Jia. The transition density of the large mass hyperon star [J]. Chinese Physics C, 2014, 38(1)1: 015101. (SCI, IF=0.251) [38] Xian-Feng Zhao, Huan-Yu Jia. The surface gravitational redshift of the massive neutron star PSR J0348+0432 [J]. Revista Mexicana de Astronomia y Astrofisica, 2014,50(1)4:103-108 (SCI, IF=2.525) [39] Xian-Feng Zhao, Ai-Jun Dong, Huan-Yu Jia. The properties of the neutron star PSR B2303+46[J]. Chinese Journal of Physics, 2014,52(2)4:679-690. (SCI, IF=0.448) [40] Xian-Feng Zhao. Constraints the properties of the massive neutron star PSR J0348+0432 from the mesons f0(975) and φ(1020)[J]. The European Physical Journal A, 2014,50(5)5:1-6. (SCI, IF=1.968) [41] Xian-Feng Zhao. The properties of the neutron star PSR J0348+0432[J]. International Journal of Modern Physics D, 2015, 24(8)7: 1550058. (SCI, IF=1.963) [42] Xian-Feng Zhao. Examination of the influence of the f0(975) and φ(1020) mesons on the surface gravitational redshift of the neutron star PSR J0348+0432 [J]. Physical Review C, 2015, 92(5)11: 055802. (SCI, IF=3.146) [43] Xian-Feng Zhao. The Hyperons in the Massive Neutron Star PSR J0348+0432[J]. Chinese Journal of Physics, 2015, 53(6)11: 1-14. (SCI, IF=0.464) [44] Xian-Feng Zhao. On the moment of inertia of PSR J0348+0432 [J]. Chinese Journal of Physics, 2016, 54(5)10: 839-844. (SCI, IF=0.514) [45] Xian-Feng Zhao, Can the massive neutron star PSR J0348+0432 be hyperon star? [J]. Acta Physica Polonica B, 2017, 48(2)2: 171-181. (SCI, IF=0.904) [46] Xian-Feng Zhao, The moment of inertia of theneutron star PSR J0348+0432 and its proto neutron star [J]. Astrophysics and Space Science, 2017, 362(5)5:95. (SCI, IF=1.622) [47] Xian-Feng Zhao, Property difference between the neutron star PSR J0348+0432 and its proto neutron star [J]. International Journal of Modern Physics D, 2017, 26(11)10: 1750133. (SCI, IF=1.963) [48] Xian-Feng Zhao. Meson effect in the proto neutron star PSR J0348+0432 [J]. International Journal of Theoretical Physics, 2017, 56(10)10:3050–3060. (SCI, IF=0.845) [49] Xian-Feng Zhao. Effect of entropy on properties of proto neutron star PSR J0348+0432 [J]. Chinese Journal of Physics, 2018, 56(7)8: 1648-1655. (SCI, IF=0.514) [50] Xian-Feng Zhao. Effect of the mesons on the baryons distribution in the massive NS PSR J0348+0432 [J]. Astrophysics and Space Science, 2019, 364(3)3: 38.(SCI, IF=1.622) [51] Xian-Feng Zhao. The composition of baryon in the proto neutron star PSR J0348+0432[J]. International Journal of Theoretical Physics, 2019, 58(4)4, 1060-1070, (SCI, IF=0.845) [52] Xian-Feng Zhao. Effect of hyperon coupling constants on the properties of the massive neutron star PSR J0348+0432 [J]. International Journal of Modern Physics D, 2019, 28(11)11: 1950144. (SCI, IF=1.963) [53] Xian-Feng Zhao. The hyperon coupling constants and the surface gravitational redshift of massive neutron stars [J]. Chinese Journal of Physics, 2020, 63:240-247. (SCI, IF=0.514) [54] Xian-Feng Zhao, Rui Huang, Jian-Li Huo, Effect of nucleon coupling constants on properties of proto neutron star PSR J0740+6620[J]. 2022, International Journal of Modern Physics D, 31(8)6, 2250062. (SCI, IF=1.963) [55] Zhao, Xian-Feng, Liu, Ting-Ping, Effect of hyperon interaction on properties of proto neutron star PSR J0740+6620[J], 2022, European Physical Journal C, 82(8)8, 682. (SCI, IF=4.607) [56] Xian-Feng Zhao, Bin Tang, The Moment of Inertia of Proto Neutron Star PSR J0737-3039A[J]. 2022, Brazilian Journal Of Physics, 52(5)10, 149. (SCI, IF=1.018) [57] Xian-Feng Zhao, Zhen-Hai Wu, The Moment of Inertia of Proto-Neutron Star PSR J0740+6620[J]. 2022, Acta Physica Polonica B, 53(8), 8-A1. (SCI, IF=0.669) [58] Xian-Feng Zhao, The interaction between hyperons and the surface gravitational redshift of proto neutron star PSR J0740+6620[J]. 2022, Contrib. Astron. Obs. Skalnaté Pleso, 52(2), 58-71. (SCI, IF=0.595). [59] Xian-Feng Zhao, Shui-Rong Zhong, Jian-Li Huo, Properties of proto neutron star PSR J0737-3039A[J]. 2022, Chinese Physics C, 46(10)10, 105102. (SCI, IF=2.145) [60] Xian-Feng Zhao, The role of hyperonic interactions in proto neutron stars[J]. 2022, Int J Mod Phys E, 31(12)12, 2250101. (SCI, IF=1.199) [61] Xian-Feng Zhao, Effect of the interaction between hyperons on the moment of inertia of the proto neutron stars[J]. 2023, Astrophysics, 66(1):84-97. (SCI, IF=0.556) [62] Zhao, Xian-Feng, Huo, Jian-Li, Chen, Jian-Yong, Effect of nucleon coupling constants on the mass radius ratio of proto neutron star PSR J0737-3039A[J]. 2023, Modern Physics Letters A, 38(1)4: 2350004. (SCI, IF=1.594) B 专著 1、赵先锋,贾焕玉. 中子星的相对论平均场理论研究[M]. 成都:西南交通大学出版社,2012.11. ISBN:978-7-5643-2052-2,p1-179. 2、赵先锋. 大质量中子星研究[M]. 成都:四川大学出版社,2017.08. ISBN:978-7-5690-1032-9,p1-208. 206千字。 C 教材 1、赵先锋. 大学物理讲义 上册[M]. 成都:西南交通大学出版社,2015年12月. 2、赵先锋. 大学物理讲义 下册[M]. 成都:西南交通大学出版社,2015年12月. |
