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Quantum radiation of Kerr black hole in de Sitter background

  • T. Ibungochouba SinghEmail author
  • Y. Kenedy Meitei
  • I. Ablu Meitei
  • K. Yugindro Singh
Original Paper
  • 6 Downloads

Abstract

In this paper, we investigate the tunneling of vector boson particles across the event horizon of Kerr–de Sitter black hole by using Hamilton–Jacobi ansatz to Proca equation and WKB approximation . The surface gravity of KdS black hole has been recovered by using direct calculation and Proca equation. These two different methods give the same Hawking temperature at the event horizon.

Keywords

Kerr–de Sitter black hole Proca equation Hawking temperature WKB approximation 

PACS No.

04.70.Dy 

Notes

Acknowledgements

Y. Kenedy Meitei acknowledges the CSIR for providing the financial support.

References

  1. [1]
    S W Hawking Nature 248 30 (1974)CrossRefADSGoogle Scholar
  2. [2]
    S W Hawking Commun. Math. Phys. 43 199 (1975)CrossRefADSGoogle Scholar
  3. [3]
    J D Bekenstein Phys. Rev. D 7 2333 (1973)MathSciNetCrossRefADSGoogle Scholar
  4. [4]
    J D Bekenstein Phys. Rev. D 9 3292 (1974)CrossRefADSGoogle Scholar
  5. [5]
    J M Bardeen, B Carter and S W Hawking Commun. Math. Phys. 31 161 (1973)CrossRefADSGoogle Scholar
  6. [6]
    T Damour and R Ruffini Phys. Rev. D 14 332 (1976)CrossRefADSGoogle Scholar
  7. [7]
    S Sannan Gen. Rel. Grav. 20 239 (1988)MathSciNetCrossRefADSGoogle Scholar
  8. [8]
    P Kraus and F Wilczek Nucl. Phys. B 433 403 (1995)CrossRefADSGoogle Scholar
  9. [9]
    P Kraus and F Wilczek Nucl. Phys. B 437 231 (1995)CrossRefADSGoogle Scholar
  10. [10]
    M K Parikh and F Wilczek Phys. Rev. Lett. 85 5042 (2000)MathSciNetCrossRefADSGoogle Scholar
  11. [11]
    B Chatterjee, A Ghosh and P Mitra Phys. Lett. B 661 307 (2008)MathSciNetCrossRefADSGoogle Scholar
  12. [12]
    M Angheben, M Nadalani, L Vanzo and S Zerbini JHEP 05 014 (2005)CrossRefADSGoogle Scholar
  13. [13]
    D Chen and S Yang Int. J. Mod. Phys. A 22 5173 (2007)CrossRefADSGoogle Scholar
  14. [14]
    G Wang, B Liu and L Wenbiao Gen. Rel. Grav. 42 633 (2010)CrossRefADSGoogle Scholar
  15. [15]
    M A Rahman and M L Hossain Phys. Lett. B 712 1 (2012)MathSciNetCrossRefADSGoogle Scholar
  16. [16]
    T Ibungochouba, I Ablu and K Yugindro Int. J. Theor. Phys. 56 2640 (2017)CrossRefGoogle Scholar
  17. [17]
    R Banerjee and B R Majhi JHEP 06 095 (2008)CrossRefADSGoogle Scholar
  18. [18]
    R Banerjee and B R Majhi Phys. Lett. B 674 218 (2009)MathSciNetCrossRefADSGoogle Scholar
  19. [19]
    R Banerjee and B R Majhi Phys. Lett. B 675 243 (2009)MathSciNetCrossRefADSGoogle Scholar
  20. [20]
    S Chakraborty and S Saha Adv. High Energy Phys. Article ID 168487 (2014)Google Scholar
  21. [21]
    B R Majhi Phys. Rev. D 79 044005 (2009)CrossRefADSGoogle Scholar
  22. [22]
    A Ghosh, K Noui and A Perez Phys. Phys. Rev. D 89 084069 (2013)CrossRefADSGoogle Scholar
  23. [23]
    A Ghosh and A Perez Class Quantum Grav. 21 5245 (2004)CrossRefGoogle Scholar
  24. [24]
    O Dreyer, A Ghosh and G Avirup Phys. Rev. D 89 024035 (2014)CrossRefADSGoogle Scholar
  25. [25]
    B Chatterjee and A Ghosh JHEP 04 125 (2012)CrossRefADSGoogle Scholar
  26. [26]
    A Chatterjee, B Chatterjee and A Ghosh Phys. Phys. Rev. D 87 084051 (2013)CrossRefADSGoogle Scholar
  27. [27]
    S I Kruglov Mod. Phys. Lett. A 29 1450203 (2014)CrossRefADSGoogle Scholar
  28. [28]
    S I Kruglov Int. J. Mod. Phys. A 29 1450118 (2014)CrossRefADSGoogle Scholar
  29. [29]
    I Sakalli and A Ovgun J. Exp. Theor. Phys. 121 404 (2015)CrossRefADSGoogle Scholar
  30. [30]
    C Ge-Rui, Z Shiwei and H Yong-Chang Astrophys. Space Sci. 357 51 (2015)CrossRefADSGoogle Scholar
  31. [31]
    L Xiang-Qian and C Ge-Rui Phys. Lett. B 751 34 (2015)CrossRefADSGoogle Scholar
  32. [32]
    I Sakalli and A Ovgun Eur. Phys. J. Plus 130 110 (2015)CrossRefGoogle Scholar
  33. [33]
    H Gursel and I Sakalli Can. J. Phys. 94 147 (2016)CrossRefADSGoogle Scholar
  34. [34]
    T Ibungochouba, I Ablu and K Yugindro Astrophys. Space Sci. 361 103 (2016)CrossRefADSGoogle Scholar
  35. [35]
    D Y Chen, Q Q Jiang and X T Zu Phys. Lett. B 665 106 (2008)MathSciNetCrossRefADSGoogle Scholar
  36. [36]
    A G Riess et al Astrono. J. 116 1009 (1998)CrossRefADSGoogle Scholar
  37. [37]
    S Perlmutter et al Astrophys. J. 517 565 (1999)CrossRefADSGoogle Scholar
  38. [38]
    T Padmanabhan Phys. Rep.  380 235 (2003)MathSciNetCrossRefADSGoogle Scholar
  39. [39]
    B Carter Commun. Math. Phys. 17 233 (1970)CrossRefADSGoogle Scholar
  40. [40]
    G W Gibbons and S W Hawking Phys. Rev. D  10 2738 (1977)CrossRefADSGoogle Scholar
  41. [41]
    J Zhang and Z Zhao Phys. Lett. B 618 14 (2005)MathSciNetCrossRefADSGoogle Scholar
  42. [42]
    G Q Li Europhys. Lett. 76 203 (2006)MathSciNetCrossRefADSGoogle Scholar

Copyright information

© Indian Association for the Cultivation of Science 2019

Authors and Affiliations

  1. 1.Mathematics DepartmentManipur UniversityCanchipurIndia
  2. 2.Physics DepartmentModern CollegeImphalIndia
  3. 3.Physics DepartmentManipur UniversityCanchipurIndia

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