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Wang Fayin
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Professor
Contact:025-89687505 Email:fayinwang@nju.edu.cn
Personal introduction Biography

Education

Sep, 2005 – Jun, 2010     Nanjing University, PhD degree

Sep, 2001 – Jun, 2005     Nanjing University, Bachelor degree  Major: Astronomy

Work Experience  

Jul, 2010 – Oct, 2012        Nanjing University, Postdoctoral researcher

Nov, 2012 – Dec, 2015      Nanjing University, Associate Professor

Dec, 2015 – now         Nanjing University, Professor


Take Courses Teaching
Research Field Research Interests

Gamma-Ray Bursts, Cosmology, Dark Energy, Fast Radio Burst, Gravitational Wave, Self-organized Criticality


Academic publications Publications

1.     Wang, F. Y.*, Yu, H., Zou, Y.C.*, Dai, Z.G., Cheng, K.S. “A rapid cosmic-ray increase in BC 3372-3371 from ancient buried tree rings in China”, 2017, Nature Communications, 8, 1487

2.     Zhang, G.Q., & Wang, F. Y.*,“The Formation Rate of Short Gamma-Ray Bursts and Gravitational Waves”, 2018, ApJ, 852, 1

3.     Zou, Yuan-Chuan; Wang, Fei-Fei; Moharana, Reetanjali; Liao, Bin; Chen, Wei; Wu, Qingwen; Lei, Wei-Hua; Wang, Fa-Yin, “Determining the Lorentz Factor and Viewing Angle of GRB 170817A”2018ApJL852L1

4.     Wang, Y.-Y., Wang, F. Y.*,“Testing the isotropy of the Universe with Type Ia supernovae in a model-independent way”, 2018, MNRAS, 474, 3516

5.     Hu, J., Yu, H., & Wang, F. Y.*,“Investigating the Effect of Cosmic Opacity on Standard Candles”, 2017, ApJ, 836, 107

6.     Wang, F. Y.*, & Yu, H., “SGR-like behaviour of the repeating FRB 121102”, 2017, JCAP, 03, 023

7.     Yu, H., & Wang, F. Y.*, " Measuring the cosmic proper distance from fast radio bursts", 2017, A&A, 606, A3

8.     Wang, Jie-Shuang; Yang, Yuan-Pei; Wu, Xue-Feng; Dai, Zi-Gao; Wang, Fa-Yin, "Fast Radio Bursts from the Inspiral of Double Neutron Stars", 2016, ApJL, 822, L7

9.     Petitjean, Patrick Wang, F. Y.*;Wu, X. F. & Wei, J. J.“GRBs and Fundamental Physics”2016Space Science Reviews

10.  Yu, H. & Wang, F. Y.*“On the inconsistency between cosmic stellar mass density and star formation rate up to z~8", 2016, ApJ, 820, 114

11.  Wang, J. S., Wang, F. Y.*, Cheng, K. S. & Dai, Z. G., "Measuring dark energy with the Eiso-Ep correlation of gamma-ray bursts using model-independent methods", 2016, A&A 585A68

12.  Tan, Wei-Wei & Wang, F. Y.*, "Research on the redshift evolution of luminosity function and selection effect of GRBs", 2015, MNRAS, 454, 1785

13.  Yang, Y. P., Wang, F. Y.* & Dai, Z. G., "Near-infrared radiation background, gravitational wave background, and star formation rate of Pop III and Pop II during cosmic reionization", 2015, A&A, 582, A7

14.  Yuan, C. C. & Wang, F. Y.*, " Cosmological test using strong gravitational lensing systems", 2015, MNRAS, 452, 2423

15.  Yi, Shuang-Xi; Wu, Xue-Feng; Wang, Fa-Yin; Dai, Zi-Gao, “Constraints on the Bulk Lorentz Factors of GRB X-Ray Flares”2015, ApJ, 807, 92

16.  Wang, F. Y., Dai, Z. G.* & Liang, E. W, “Gamma-ray burst Cosmology”, 2015, New Astro. Rev., 67, 1

17.  Yu, H., Wang, F. Y.*, Dai, Z. G. & Cheng, K. S., “An Unexpectedly Low-redshift Excess of Swift Gamma-ray Burst Rate”, 2015, ApJS, 218, 13

18.  Zou, Y. C., Cheng, K. S. & Wang, F. Y.*, “Constraining the Lorentz Factor of a Relativistic Source from Its Thermal Emission”, 2015, ApJL, 800, L23

19.  Wang, F. Y.*, Dai, Z. G., Yi, S. X. & Xi, S. Q., “Universal Behavior of X-Ray Flares from Black Hole Systems”, 2015, ApJS, 216, 8

20.  Yu, H. & Wang, F. Y.*, “Reconciling the cosmic age problem in the universe”, 2014, EPJC, 74, 3090

21.  Wang, J. S., & Wang, F. Y.*, “Probing the anisotropic expansion from supernovae and GRBs in a model-independent way”, 2014, Mon. Not. R. Astron. Soc., 443, 1680

22.  Wang, F. Y.* & Dai, Z. G., “Long GRBs are Metallicity-biased Tracers of Star Formation: Evidence from Host Galaxies and Redshift Distribution”, 2014, ApJS, 213, 15

23.  Wang, F. Y.*, Yi, S. X. & Dai, Z. G., “Similar Radiation Mechanism in Gamma-Ray Bursts and Blazars: Evidence from Two Luminosity Correlations”, 2014, ApJL, 786, L8

24.  Wang, J. S., & Wang, F. Y.*, “Cosmological model of the interaction between dark matter and dark energy”, 2014, A&A, 564, A137

25.  Wang, F. Y.* & Dai, Z. G.*, “Self-organized criticality in X-ray flares of gamma-ray-burst afterglows”, 2013, Nature Physics, 9, 465

26.  Wang, F. Y.* & Dai, Z. G., “Estimating the uncorrelated dark energy evolution in the Planck era”, 2014, Phys. Rev. D, 89, 023004

27.  Yang, X. F., Wang, F. Y.* & Chu, Z., “Searching for a preferred direction with Union2.1 data”, 2014, Mon. Not. R. Astron. Soc., 437, 1840

28.  Wang, F. Y.* & Dai, Z. G., “Testing the local-void alternative to dark energy using galaxy pairs”, 2013, Mon. Not. R. Astron. Soc., 432, 3025

29.  Wang, F. Y.*, “The high-redshift star formation rate derived from gamma-ray bursts: possible origin and cosmic reionization2013, Astronomy & Astrophysics, 556, A90

30.  Zou, Y. C., Wang, F. Y.* & Cheng, K. S., “Long-term X-ray emission from Swift J1644+57”, 2013, Mon. Not. R. Astron. Soc., 434, 3463

31.  Wang, F. Y.*, Bromm, Volker., Greif, Thomas H., Stacy, Athena., Dai, Z. G., Loeb, A. & Cheng, K. S., “Probing Pre-galactic Metal Enrichment with High-redshift Gamma-Ray Bursts”2012, Astrophys. Journal, 760, 27

32.  Wang, F. Y.*, “Current constraints on early dark energy and growth index using latest observations”2012, Astronomy & Astrophysics, 534, A91

33.  Wang, F. Y.* & Cheng, K. S., “Internal shock model for the X-ray flares of Swift J1644+57”, 2012, Mon. Not. R. Astron. Soc., 421, 908

34.  Wang, F. Y.* & Dai, Z. G., “Weak gravitational lensing effects on cosmological parameters and dark energy from gamma-ray bursts”, 2011, Astronomy & Astrophysics, 536, A96

35.  Wang, F. Y.*, Qi, S. & Dai, Z. G., “The updated luminosity correlations of gamma-ray bursts and cosmological implications”, 2011, Mon. Not. R. Astron. Soc., 415, 3423

36.  Wang, F. Y.* & Dai, Z. G., “An Evolving Stellar Initial Mass Function and the Gamma-ray Burst Redshift Distribution”, 2011, Astrophys. Journal, 727, L34

37.  Li, X. Y., Wang, F. Y. & Cheng, K. S.*,“Gravitational effects of condensate dark matter on compact stellar objects”2012, Journal of Cosmology and Astroparticle Physics, 10, 031

38.  Wang, F. Y. * & Dai, Z. G., “High-redshift star formation rate up to z~8.3 derived from gamma-ray bursts and influence of background cosmology”, 2009, Mon. Not. R. Astron. Soc., 400, L10-L14

39.  Wang, F. Y. *, Dai, Z. G. & Qi, S., “Probing the cosmographic parameters to distinguish between dark energy and modified gravity models”,2009,  Astronomy & Astrophysics, 507, 53

40.  Wang, F. Y. *, Dai, Z. G. & Qi, S., “Constraints on generalized Chaplygin gas model including gamma-ray bursts”, 2009, Research in Astron. Astrophys, 9, 547

41.  Wang, F. Y. *& Dai, Z. G. , “Constraining the cosmological parameters and transition redshift with gamma-ray bursts and supernovae”,2006, Mon. Not. R. Astron. Soc., 368, 371

42.  Wang, F. Y. & Dai, Z. G. *, “Constraining Dark Energy and Cosmological Transition Redshift with Type Ia Supernovae”, 2006, ChJAA, 6, 561

43.  Wang, F. Y. * , “Constraints on the Cardassian expansion models from the latest observational data”, Journal of Cosmology and Astroparticle Physics, 2007, 08, 020,

44.   Wang, F. Y., Dai, Z. G. * & Zhu, Z. H., “Measuring Dark Energy with Gamma-Ray Bursts and Other Cosmological Probes”, Astrophys. Journal, 2007, 667, 1

45.  Qi, S. *, Wang, F. Y. & Lu, T., “Constraining the evolution of dark energy with type Ia supernovae and gamma-ray bursts”, Astronomy & Astrophysics, 2008, 483, 49

46.  Qi, S. *, Wang, F. Y. & Lu, T. , “Gamma-ray burst contributions to constraining the evolution of dark energy”, Astronomy & Astrophysics, 2009, 487, 853

47.Qi, S. *, Lu, T. &Wang, F. Y., “Deviation from the cosmological constant or systematic errors?” Mon. Not. R. Astron. Soc., 2009, 398, L78