Using a deformed dispersion relation, the Hawking temperature and tunneling rate for fermions from non-stationary Kerr black holes receive corrections dependent on the horizon's angular parameters.
Hawking radiation via Landauer transport model
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abstract
Recently, Nation et al confirmed that fluxes of Hawking radiation energy and entropy from a black hole can be regarded as a one-dimensional (1D) Landauer transport process. Their work can be extended to background spacetimes with gauge potential. The result shows that the energy flux, which is indicated to be equal to the energy-momentum tensor flux, contains not only the contribution of thermal flux but also that of particle flux. We find that the charge can also be regarded as transporting via a 1D quantum channel and the charge flux is equal to the gauge flux.
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Modified Fermions Tunneling Radiation from Non-stationary, Axially Symmetric Kerr Black Hole
Using a deformed dispersion relation, the Hawking temperature and tunneling rate for fermions from non-stationary Kerr black holes receive corrections dependent on the horizon's angular parameters.