Abstract
Quantum gravity has exciting peculiarities on the Planck scale.The effect of generalized uncertainty principle (GUP) to the entangled scalar/fermion particles’ tunneling from a Schwarzschild black hole immersed in an electromagnetic Universe is investigated by the help of semi-classical tunneling method. The quantum corrected Hawking temperature of this black hole with an external parameter “a” modifies the Hawking temperature for the entangled particles.
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Notes
The erroneous metric in eq. (15) of ref.[45] is corrected here.
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Acknowledgments
I am indebted to my supervisor M. Halilsoy for continuous suggestions and encouragements. Valuable discussions with Gerard ’t Hooft, G. Dvali, George F. R. Ellis, R. Mann, E. Guendelman, R. Casadio, O. Panella, I. Sakalli, A. Addazi and A. Helou are gratefully acknowledged. The research was started while the author was at the Karl Schwarzschild Meeting 2015 (KSM2015) at FIAS in Germany. I also would like to thank organizers of KSM2015 in Frankfurt for their hospitality.
I am thankful also to an anonymous referees whose comments helped to improve the paper.
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Övgün, A. Entangled Particles Tunneling From a Schwarzschild Black Hole immersed in an Electromagnetic Universe with GUP. Int J Theor Phys 55, 2919–2927 (2016). https://doi.org/10.1007/s10773-016-2923-0
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DOI: https://doi.org/10.1007/s10773-016-2923-0