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Hawking radiation as tunneling

Hawking radiation as tunneling. Baocheng Zhang Wuhan institute of Physics and Mathematics Chinese Academy of Sciences. The coauthors : Qing-yu Cai Ming-sheng Zhan. Introduction. Backgroud Hawking radiation as tunneling through quantum horizon. Backgroud. Hawking radiation.

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Hawking radiation as tunneling

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  1. Hawking radiation as tunneling Baocheng Zhang Wuhan institute of Physics and Mathematics Chinese Academy of Sciences

  2. The coauthors: Qing-yu Cai Ming-sheng Zhan

  3. Introduction • Backgroud • Hawking radiation as tunneling through quantum horizon

  4. Backgroud

  5. Hawking radiation • Bogoljubov transformation relating in-modes which determine the state of the radiation field before the collapse and out-modes which define the particles emerging from the hole and found at infinity. • Treat the black hole immersed in a thermal bath comment: in both of the standard calculations, the background geometry is considered fixed, and energy conservation is not enforced during the emission process.

  6. Hawking radiation as tunneling • The consideration: energy conservation • The coordinate system: Painleve coordinate • The particles: infinite blueshift near the horizon • The barrier: the outgoing particle itself • The method: The WKB approximation • The physical picture: tunneling PRL 85, 5042 (2000)

  7. The important result obtained in such picture

  8. Comment: • This recover the Hawking radiation in leading order • The physical picture • The relation between radiation and entropy • The non-thermal spectrum • The generalization

  9. Black hole thermodynamics

  10. Generalized Second Law

  11. Black hole information loss paradox • Hawking’s proposal to accept the information loss • Black hole remnant——infinite degeneracy • Quantum hair——how to reduce to low energy • The information hidden in radiation——the quantity • The final state projection——whether it exist

  12. Quantum black hole • Motivation——Paradox • Counting microstates of black holes • Black hole complementarity • The holographic principle • The string theory and field theory • The ultraviolet-infrared connection

  13. The quantum modification of entropy • The microstates counting • The one-loop effect of quantum matter fields near a black hole • Purely quantum gravity effect

  14. Background • Hawking Radiation • Black hole thermodynamics • Quantum black hole

  15. Hawking radiation as tunneling through quantum horizon

  16. Review Tunneling probability

  17. Thermodynamics and tunneling

  18. The entropy change method review • The metric: • The outgoing radial null geodesics near horizon • The surface gravity • The temperature of the radiation PLB 660, 402 (2008)

  19. The change of the entropy: Thus we obtain the tunneling probability from the change of entropy as a direct consequence of the first law of black hole thermodynamics.

  20. The problem • The entropy modified by quantum gravity effect: • We calculate the change of the entropy This is inconsistent with the result obtained by calculating the imaginary part of the action included quantum gravity effect.

  21. Why does it lead to such problem? It looks as if formally the temperature were notproportional to the surface gravity according to the first law of black hole thermodynamics, when the entropy is modified by quantum gravity effect. ?

  22. Solution • We must hold the first law of black hole thermodynamics and the temperature relation, so • The surface gravity defined afresh sustains the proportional relation between the temperature and surface gravity and the first law of black hole thermodynamics is held.

  23. The tunneling probability through quantum horizon

  24. Conclusion • The tunneling probability can be obtained from the first law of thermodynamics by using the method of the change of entropy with logarithmic correct which contains quantum gravity effect. • The proportional relation between the temperature and the surface gravity plays the important role. • The generalization verifies the connection of black hole radiation with thermodynamics further. Baocheng Zhang, Qing-yu Cai and Ming-sheng Zhan, PLB 665, 260 (2008)

  25. QBH-E Unruh E BH-Te LHC GR AO HR BH-Th QM BH-I-L-P BH-E Future Baocheng Zhang, Qing-yu Cai and Ming-sheng Zhan, “Entropy conservation in Hawking radiation as tunneling”, submitted for publication

  26. Thank You !

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