基本信息

王博  

中国科学院云南天文台二级研究员、博导

中国科学院特聘研究岗位(核心)

通信地址: 云南省昆明市东郊凤凰山云南天文台
邮政编码: 650216
电子邮件: wangbo@ynao.ac.cn
电        话:0871-63920145 
传        真:0871-63920599

简历

工作简历:
2016/06 - 至今        中国科学院云南天文台  博导
2015/04 - 至今        中国科学院云南天文台  研究员
2012/02 - 2015/04  中国科学院云南天文台  副研究员
2010/07 - 2012/02  中国科学院云南天文台  助理研究员
 
学习简历:
2005/09 - 2010/07 中国科学院云南天文台  博士
2001/09 - 2005/07 云南大学                       学士

研究工作

       研究领域包括:恒星物理、双星演化、大样本恒星演化、超新星前身星及其相关天体。

       研究主要涉及:1)不同类型超新星前身星(Ia型超新星、电子俘获超新星、铁核塌缩超新星等);2)超新星爆发前的相关天体(超软X射线源、共生星、新星、双白矮星等);3)超新星爆发后的相关天体(双中子星、低质量X射线双星、极亮X射线源、毫秒脉冲双星、超高速星等)。相关研究与引力波、暗物质及暗能量密切相关。

      超新星是恒星演化晚期所产生的高能爆发现象。超新星研究是天体物理学的前沿课题,对理解恒星及宇宙的演化过程具有重要的科学意义。Ia型超新星是宇宙学距离指示器,通过Ia型超新星测距,波尔马特等人发现宇宙在加速膨胀,从而推论出暗能量的存在。暗能量的发现不仅是天文学,更是物理学的巨大突破(波尔马特等人由此获得了2011年度诺贝尔物理学奖)。然而,人们并不清楚Ia型超新星的前身星是什么,这将直接影响其测距精度并阻碍精确宇宙学的发展。在超新星前身星及其相关领域开展了一系列研究,提出了形成Ia型超新星的氦双星前身星模型,成功地揭示了年轻Ia型超新星如何形成的难题,受到英、美、德、俄、葡等30多个国家70余家国外媒体(如BBC, Science Daily)的报道,并被《自然·中国》作为研究亮点,以“宇宙学:氦来帮忙”为题进行了评述。氦双星模型被广泛应用于超新星爆炸模型研究,模型预言的超高速氦星被近年来的观测所证实。

     在国际一流期刊发表论文80余篇,成果写入Springer出版社出版的《超新星手册》等10余部国际专著及教科书。获2022年国家杰青、第十七届中国青年科技奖、青年科学家奖。爱思唯尔“中国高被引学者”(2020-今),英国物理学会(IOP)出版社2020高引榜单。受到兴滇英才支持计划“云岭学者”专项及西部之光交叉团队等项目的支持。培养的博士获2019年中院优秀博士论文奖。研究团队在国际上被称为“The Yunnan Group”。 

获奖及荣誉

(1) 国家杰出青年科学基金获得者(2022)

(2) 第十七届中国青年科技奖(2022)

(3) 中国科学院青年科学家奖(2022)

(4) 国家优秀青年科学基金获得者(2013)

(5) 国家自然科学奖二等奖(2013, 4/4)

(6) 爱思唯尔 “中国高被引学者”(2020 - 今)

(7) 2023年获中国物理C优秀审稿人

(8) 2020年获英国物理学会(IOP)出版社中国高引作者奖

(9) 2019年获中国科学院优秀导师奖

(10) 2011年首批中国科学院青促会会员(2015年首批优秀会员)

(11) 2011年获中国科学院优秀博士论文奖

(12) 2010年获中国科学院院长特别奖

科研项目

(1) 主持国家杰出青年科学基金(2023-2027)

(2) 主持兴滇英才支持计划“云岭学者”专项(2023-2027)

(3) 主持中国科学院西部之光交叉团队专项(2022-2024)

(4) 主持云南省重点项目(2020-2023)

(5) 主持云南省“万人计划”青年拔尖人才项(2019-2023

(6) 主持首批云南省杰出青年科学基金(2019-2022

(7) 主持国家基金面上项目2019-2022

(8) 主持中国科学院前沿科学重点研究计划(2016-2021

(9) 国家基金创新群体项目,核心成员2016-2021

(10) 主持国家基金面上项目2017-2020

(11) 主持中国科学院青促会优秀会员人才专项(2016-2018

(12) 主持国家优秀青年科学基金2014-2016

论文列表

  Pulished papers (please click the ADS library for the latest list)

  1. Wang B., Han Z., Progenitors of type Ia supernovae, 2012, New Astronomy Reviews, 56, pp122-141 (invited reviews)
  2. Wang B., Mass-accreting white dwarfs and type Ia supernovae,2018, Res. Astron. Astrophys., 18, 049 (invited reviews)
  3. Wang B., Liu D., The formation of neutron star systems through accretion-induced collapse in white-dwarf binaries, 2020, Res. Astron. Astrophys., 20, 135 (invited reviews)
  4. Wang B., Liu D., Chen H., Formation of millisecond pulsars with long orbital periods by accretion-induced collapse of white-dwarfs, 2022, MNRAS, 510, pp6011–6021
  5. Wang B., Chen W., Liu D., Chen H., Wu C., Tang W., Guo Y., Han Z., Ultra-compact X-ray binaries with He star companions, 2021, MNRAS, 506, pp4654–4666
  6. Wang B., The single-degenerate model for the progenitors of accretion-induced collapse events,2018, MNRAS, 481, pp439–446 
  7. Wang B., Podsiadlowski P., Han Z., He-accreting carbon-oxygen white dwarfs and type Ia supernovae, 2017, MNRAS, 472, pp1593–1599 
  8. Wang B., Zhou W., Zuo Z., Li Y., Luo X., Zhang J., Liu D., Wu C., The core-degenerate scenario for the progenitors of type Ia supernovae, 2017, MNRAS, 464, pp3965-3971
  9. Wang B., Li Y., Ma X., Liu D., Cui X., Han Z., Super-Eddington wind scenario for the progenitors of type Ia supernovae: Accreting He-rich matter onto white dwarfs, 2015, A&A, 584, A37
  10. Wang B., Ma X., Liu D.-D., Liu Z., Wu C.-Y., Zhang J., Han Z., Super-Eddington wind scenario for progenitors of type Ia supernovae: binary population synthesis calculations, 2015, A&A, 576, A86
  11. Wang B., Meng X., Liu D., Liu Z., Han Z., The hybrid CONe WD + He star scenario for the progenitors of type Ia supernovae, 2014, ApJ Letters, 794, L28
  12. Wang B., Justham S., Liu Z., Zhang J., Liu D., Han Z., On the evolution of rotating accreting white dwarfs and type Ia supernovae, 2014, MNRAS, 445, pp2340-2352
  13. Wang B., Justham S., Han Z., Producing type Iax supernovae from a specific class of helium-ignited WD explosions, 2013, A&A, 559, A94
  14. Wang B., Li X.-D., Han Z., The progenitors of type Ia supernovae with long delay times, 2010, MNRAS, 401, pp2729-2738
  15. Wang B., Han Z., Companion stars of type Ia supernovae and single low-mass white dwarfs, 2010, MNRAS, 404, L84-L88
  16. Wang B., Han Z., The helium star donor channel for the progenitors of type Ia supernovae with different metallicities, 2010, A&A, 515, A88
  17. Wang B., Meng X., Chen X., Han Z., The helium star donor channel for the progenitors of type Ia supernovae, 2009, MNRAS, 395, pp847-854 
  18. Wang B., Chen X., Meng X., Han Z., Evolving to type Ia supernovae with short delay times, 2009, ApJ, 701, pp1540-1546
  19. Wang B., Han Z., Companion stars of type Ia supernovae and hypervelocity stars, 2009, A&A, 508, L27-L30
  20. Wang B., Han Z., WD+RG systems as the progenitors of type Ia supernovae, 2010, Res. Astron. Astrophys., 10, pp235-243
  21. Wang B., Liu Z., Han Y., Lei Z., Luo Y., Han Z., Birthrates and delay times of type Ia supernovae, 2010, Science China Physics, Mechanics & Astronomy, 53, pp586-590
  22. Wang B., Han Z., WD + He star systems as the progenitors of type Ia supernovae and their surviving companion stars, 2010, Ap&SS, 329, pp293-296
  23. Wang B., Han Z., A likely candidate of type Ia supernova progenitors: the X-ray pulsating companion of the hot subdwarf HD 49798, 2010, Res. Astron. Astrophys., 10, pp681-688
  24. Wang B., Meng X., Wang X.-F., Han Z., Distribution of Ni yields of type Ia supernovae and its implication for progenitors, 2008, Chin. J. Astro. Astrophys., 8, pp71-80
  25.  Guo Y. *, Han Z.*, Wang B.*, Formation of black widows through ultracompact X-ray binaries with He star companions, 2022, MNRAS, 515, 2725 (*通讯作者)
  26. Guo Y., Wu C.*, Wang B.*, Mixing fraction in classical novae, 2022, A&A, 660, A53 (*通讯作者)
  27. Guo Y.*, Wu C., Wang B.*, Helium enrichment during classical nova outbursts, 2021, MNRAS, 505, 2975 (*通讯作者)
  28. Guo Y., Liu D.*, Wu C., Wang B.*, He-shell flashes on the surface of oxygen-neon white dwarfs, 2021, Res. Astron. Astrophys., 21, 034 (*通讯作者)
  29. Chen W.*, Liu D., Wang B.*, Detectability of ultra-compact X-ray binaries as LISA sources, 2020, ApJL, 900, L8 (*通讯作者)
  30. Wu C.*, Wang B.*, Wang X., Maeda K., Mazzali P., The formation of type Ia supernovae from carbon-oxygen-silicon white dwarfs, 2020, MNRAS, 495, pp1445-1460 (*通讯作者)
  31. Liu D., Wang B.*, The formation of single neutron-stars from double white-dwarf mergers via accretion-induced collapse, 2020, MNRAS, 494, pp3422-3431 (*通讯作者)
  32. Tang W., Liu D., Wang B.*, Evolving neutron star+helium star systems to intermediate-mass binary pulsars, 2019, MNRAS, 490, pp752-757 (*通讯作者)
  33. Wu C., Wang B.*, Off-centre carbon burning in He-accreting carbon-oxygen white dwarfs, 2019, MNRAS, 486, pp2977-2981 (*通讯作者)
  34. Liu D., Wang B.*, Ge H., Chen X., Han Z., The progenitors of type Ia supernovae in the semidetached binaries with red giant donors, 2019, A&A, 622, A35 (*通讯作者)
  35. Wu C., Wang B.*, Liu D., The outcomes of carbon-oxygen white dwarfs accreting CO-rich material, 2019, MNRAS, 483, pp263-275 (*通讯作者)
  36. Wu D., Liu D., Wang B.*, Past and future of the central double-degenerate core of Henize 2-428, 2019, Res. Astron. Astrophys., 19, 57 (*通讯作者)
  37. Liu D., Wang B.*, Chen W., Zuo Z., Han Z., Evolving ONe WD+He star systems to intermediate-mass binary pulsars, 2018, MNRAS,477, pp384–391 (*通讯作者)
  38. Wu C., Wang B.*, Accreting CO material onto ONe white dwarfs towards accretion-induced collapse, 2018, Res. Astron. Astrophys., 18, id.36 (*通讯作者)
  39. Liu D., Wang B.*, Han Z., The double-degenerate model for the progenitors of type Ia supernovae, 2018, MNRAS, 473, pp5352–5361 (*通讯作者)
  40. Liu D., Wang B.*, Wu C., Han Z., Merging of a CO WD and a He-rich WD to produce a type Ia supernovae, 2017, A&A, 606, A136 (*通讯作者)
  41. Wu C., Wang B.*, Liu D., Han Z., Mass retention efficiencies of He accretion onto carbon-oxygen white dwarfs and type Ia supernovae, 2017, A&A, 604, A31(*通讯作者)
  42. Liu D., Wang B.*, Podsiadlowski P., Han Z., The violent white dwarf merger scenario for the progenitors of type Ia supernovae, 2016, MNRAS, 461, pp3653-3662 (*通讯作者)
  43. Wu C., Liu D., Zhou W., Wang B.*, Accreting He-rich material onto carbon-oxygen white dwarfs until explosive carbon ignition, 2016, Res. Astron. Astrophys., 16, id.160 (*通讯作者)
  44. Liu D., Zhou W., Wu C., Wang B.*, Is the X-ray pulsating companion of HD 49798 a possible type Ia supernova progenitor? 2015, Res. Astron. Astrophys., 15, pp1813-1822(*通讯作者)
  45. Zhou W., Wang B.*, Meng X., Liu D., Zhao G., Binary population synthesis for the core-degenerate scenario of type Ia supernova progenitors, 2015, Res. Astron. Astrophys., 10, pp1701-1712 (*通讯作者)
  46. Zhou W., Wang B.*, Zhao G., Double-detonation model of type Ia supernovae with a variable helium layer ignition mass, 2014, Res. Astron. Astrophys., 14, pp1146-1156 (*通讯作者)
  47.  Sai H., Wang X., Elias-Rosa N., Yang Y., Zhang J., Lin W., Mo J., Piro A., Zeng X., Andrea R., Brown P., Burns C., Cai Y., Fiore A., Hsiao E., Isern J., Itagaki K., Li W., Li Z., Pessi P., Phillips M. M., Schuldt S., Shahbandeh M., Stritzinger M., Tomasella L., Vogl C., Wang B., et al., Observations of the Very Young Type Ia Supernova 2019np with Early-excess Emission, 2022, MNRAS, 514, 3541
  48. Li Z., Zhang T., Wang X., Sai H., Zhang J., Chen J., Zhao X., Yan S., Wang B., … SN 2012ij: A Low-luminosity Type Ia Supernova and Evidence for a Continuous Distribution from a 91bg-like Explosion to Normal Ones, 2022, ApJ, 927, id.142
  49. Wu C., Liu D., Wang X., Wang B., The effect of aspherical stellar wind of giant stars on the symbiotic channel of Type Ia supernovae, 2021, MNRAS, 503, pp4061- 4074
  50. Ren J., Raddi R., Rebassa-Mansergas A., Hernandez M. S., Parsons S. G., Irawati P., Rittipruk P., Schreiber M. R., Gänsicke B. T., Torres S., Wang H., Zhang J., Zhao Y., Zhou Y., Han Z., Wang B., Liu C., Liu X.-W., Wang Y., Zheng J., Wang J., Zhao F., Cui K., Shi J., Tian H., The White Dwarf Binary Pathways Survey. V. The Gaia White Dwarf Plus AFGK Binary Sample and the Identification of 23 Close Binaries, 2020, ApJ, 905, 38
  51. Wei D., Wang B.Chen X., Chen H., Li L., Jiang D., Mass transfer of low-mass binaries and chemical anomalies among unevolved stars in globular clusters, 2020, MNRAS, 493, pp5479-5488
  52. Cui X., Wang B., Wu C., Meng X., Han Z., The C/O ratio of He-accreting carbon-oxygen white dwarfs and type Ia supernovae, 2020, Res. Astron. Astrophys., 20, 003
  53. Moriya T. J., Liu D., Wang B., Liu Z., Circumstellar properties of Type Ia supernovae from the helium star donor channel, 2019, MNRAS, 488, pp3949-3956
  54. Yu Y., Chen A., Wang B., Optical and radio transients after collapse of super-Chandrasekhar white dwarf merger remnants, 2019, ApJ Letters, 870, L23
  55. Li Y.-P., Yuan F., Mo H.-J., Yoon D., Gan Z., Ho L. C., Wang B., Ostriker J. P., Ciotti L., Stellar and AGN Feedback in Isolated Early-type Galaxies: The Role in Regulating Star Formation and ISM Properties, 2018, ApJ, 866, 70
  56. Li Y.-B., Luo A., Du C., Zuo F., Wang M., Zhao G., Jiang B., Zhang H., Liu C., Qin L., Wang R., Du B., Guo Y., Wang B., Han Z., Xiang M., Huang Y., Chen B., Chen J., Kong X., Hou W., Song Y., Wang Y., Wu K., Zhang J., Zhang Y., Wang Y., Cao Z., Hou Y., Zhao Y., Carbon stars identified from LAMOST DR4 using Machine Learning, 2018, ApJS, 234, id.31
  57. Huang Y., Liu X., Zhang H., Chen B., Xiang M., Wang C., Yuan H., Tian Z., Li Y., Wang B., Discovery of Two New Hypervelocity Stars from the LAMOST Spectroscopic Surveys, 2017, ApJ Letters, 847, L9
  58. Zhang J., Wang X., Sasdelli M., Zhang T., Liu Z., Mazzali P. A., Meng X., Maeda K., Chen J., Huang F., Zhao X., Zhang K., Zhai Q., Pian E., Wang B. et al., A Luminous Peculiar Type Ia Supernova SN 2011hr: More Like SN 1991T or SN 2007if? 2016, ApJ, 817, 114
  59. Geier S., Fürst F., Ziegerer E., Kupfer T., Heber U., Irrgang A., Wang B., Liu Z., Han Z., Sesar B., Levitan D., Kotak R., Magnier E., Smith K., Burgett W. S., Chambers K., Flewelling H., Kaiser N., Wainscoat R., Waters C., The fastest unbound star in our Galaxy ejected by a thermonuclear supernova, 2015, Science, 347, pp1126 – 1128
  60. Liu Z., Stancliffe R. J., Abate C., Wang B., Pre-explosion companion stars in Type Iax supernovae, 2015, ApJ, 808, 138
  61. Li Y., Luo A., Zhao G., Lu Y., Wei P., Du B., Li X., Zhao Y., Han Z., Wang B., Wu Y., Zhang, Y., Hou Y., Wang Y., Yang M., 19 low mass hyper-velocity star candidates from the first data release of LAMOST survey, 2015, Res. Astron. Astrophys., 15, pp1364-1377
  62. Liu Z., Moriya Takashi J., Stancliffe Richard J., Wang B., Constraints on single-degenerate Chandrasekhar mass progenitors of Type Iax supernovae, 2015, A&A, 574, A12
  63. Zhang J., Wang X., Bai J., Zhang T., Wang B., Liu Z., Zhao X., Chen J., Optical and Ultraviolet Observations of the Narrow-Lined Type Ia SN 2012fr in NGC 1365, 2014, AJ, 148, 1
  64. Liu Z., Pakmor R., Roepke F. K., Edelmann P., Hillebrandt W., Kerzendorf W. E., Wang B., Han Z., Rotation of surviving companion stars after type Ia supernova explosions in the WD+MS scenario, 2013, A&A, 554, A109
  65. Liu Z., Pakmor R., Seitenzahl I. R., Hillebrandt W., Kromer M., Roepke F. K., Edelmann P., Taubenberger S., Maeda K., Wang B., Han Z., The Impact of Type Ia Supernova Explosions on Helium Companions in the Chandrasekhar-mass Explosion Scenario, 2013, ApJ, 774, 37  
  66. Liu Z., Kromer M., Fink M., Pakmor R., Roepke F. K., Chen X., Wang B., Han Z., Predicting the Amount of Hydrogen Stripped by the SN Explosion for SN 2002cx-like SNe Ia, 2013, ApJ, 778, 121
  67. Geier S., Marsh T. R., Wang B., Dunlap B., Barlow B. N., Schaffenroth V., Chen X., Irrgang A., Maxted P. F. L., Ziegerer E., Kupfer T., Miszalski B., Heber U., Han Z., Shporer A., Telting J. H., Gänsicke B. T., Østensen R. H., O'Toole S. J., Napiwotzki R., A progenitor binary and an ejected mass donor remnant of faint type Ia supernovae, 2013, A&A, 554, A54
  68. Zhang J., Wang B., Zhang B., Han Z., Reanalysis of the isotopic mixture of neutron-capture elements in the metal-poor Star HD 175305, 2012, Chinese Physics Letters, 29, 019701
  69. Luo Y., Wang B., Chen H., Zhang X., Han Z., Photometric analysis of a blue straggler eclipsing binary in the old open cluster NGC 2141, 2012, Science China Physics, Mechanics & Astronomy, 55, pp1500-1504
  70. Han Y., Dai B., Wang B., Zhang F., Han Z., Evolution of luminosity function and obscuration of AGN: connecting X-ray and Infrared, 2012, MNRAS, 423, pp464-477
  71. Deng L., Newberg H. J., Liu C., Carlin J. L., Beers T. C., Chen L., Chen Y., Christlieb N., Grillmair C. J., Guhathakurta P., Han Z., Hou J., Lee H.-T., Lépine S., Li J., Liu X., Pan K., Sellwood J. A., Wang B., Wang H., Yang F., Yanny B., Zhang H., Zhang Y., Zheng Z., Zhu Z.,LAMOST Experiment for Galactic Understanding and Exploration (LEGUE) — The survey’s science plan, 2012, Res. Astron. Astrophys, 123, pp735-754
  72. Liu Z., Pakmor R., Roepke F. K., Edelmann P., Wang B., Kromer M., Hillebrandt W., Han Z., Three-dimensional simulations of interaction between type Ia supernova ejecta and their main sequence companions, 2012, A&A, 548, A2 
  73. Liu W., Chen W., Wang B., Han Z., Helium star evolutionary channel to super-Chandrasekhar mass type Ia supernovae, 2010, A&A, 523, A3

社会任职

1、《天文学进展》编委(2023-今)

2、Science Bulletin 和《科学通报》特邀编委(2023-今)

3、云南省第十一届青联委员

指导学生

已指导学生

刘栋栋  博士研究生  070401-天体物理  

吴程远  博士研究生  070401-天体物理  

吴东昊  硕士研究生  070401-天体物理  

唐文师  硕士研究生  070401-天体物理  

魏丹丹  博士研究生  070401-天体物理  

郭云浪  博士研究生  070401-天体物理  

祁伟忠  硕士研究生  070401-天体物理  

现指导学生

邓阳阳  博士研究生  070401-天体物理  

李陆翰  硕士研究生  070401-天体物理  

张正阳  博士研究生  070401-天体物理  

李睿婕  博士研究生  070401-天体物理  

龙刚  博士研究生  070401-天体物理  

罗昕捷  硕士研究生  070401-天体物理  

招生信息

天体物理:恒星物理, 双星演化, 大样本恒星演化, 超新星前身星及其相关天体致密天体的形成及演化,中子星系统的形成,毫秒脉冲双星,超高速星的起源,新星爆发,共生星

招生专业

070401-天体物理

招生研究方向

恒星与星系