The influence of the generalized uncertainty principle (GUP) and extended uncertainty principle (EUP) on the thermodynamics of the Friedmann-Robertson-Walker (FRW) universe has been investigated. It is shown that the entropy of the apparent horizon of the FRW universe gets a correction if one considers the effect of the GUP or EUP. Moreover, starting with the modified entropy and applying the first law of thermodynamics, dE = T dS, to the apparent horizon of the FRW universe, we obtain the modified Friedmann equations. The influence of the GUP or EUP on the thermodynamics of the FRW universe provides a deep insight into the understanding of the quantum gravity or large length scale corrections to the dynamics of the FRW universe.
We calculated the Dirac Particles' Hawking radiation from the outer horizon
of BTZ black hole via tunneling formalism. Applying WKB approximation to the
Dirac equation in (2+1) dimensional BTZ spacetime background, we obtain the
radiation spectrum for fermions and Hawking temperature of BTZ black hole. The
results obtained by taking the fermion tunneling into account is consistent
with the previous literatures.Comment: 7 pages, no figure, accepted by PL
We investigated Dirac Particles' Hawking radiation from event horizon of Kerr black hole in terms of the tunneling formalism. Applying WKB approximation to the general covariant Dirac equation in Kerr spacetime background, we obtain the tunneling probability for fermions and Hawking temperature of Kerr black hole. The result obtained by taking the fermion tunneling into account is consistent with the previous literatures.
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