Add to ORKGGeneralized master equations due to spin fields are given. We obtain the entropy of electromagnetic, gravitational, Dirac, and scalar fields in a unified form by using the improved brick-wall method-membrane model. The results show that, as the cutoff is properly chosen, the entropy in the black hole satisfies the Bekenstein-Hawking area formula
Abstract. Using quantum statistical method, we obtain the partition function of Bose field and Fermi...
By using 't Hooft's brick wall model, the corrections for a massless quantum scalar field to...
Recently it was shown by M. Guica, T. Hartman, W. Song and A. Strominger that the entropy of extreme...
Using the membrane model which is based on brick-wall model, we calculated the free energy and entro...
We calculate the entropy of the fermion field in the NUT-Kerr-Newman black holes in the background o...
Membrane method is used to compute the entropy of the NUT-Kerr-Newman black holes. It is found that ...
Using the membrane model which is based on brick-wall model, we calculated the free energy and entro...
It is well known that the Euler characteristic number of most black holes is 2 (or 0), and that only...
Using the membrane model based on the brick-wall model, we calculate the free energy and entropy of ...
Starting from the master equations of governing arbitrary spin fields, we calculate the free energy ...
Scalar field contribution to entropy is studied in arbitrary D dimensional one parameter rotating sp...
We study the statistical mechanics for quantum scalar fields under the multi-parameter rotating blac...
Using the membrane model which is based on the brick-wall model, we calculated the free energy and e...
The entropy of rotating Kerr-Newman-Kasuya black hole due to massive charged fields (bosons and ferm...
Based on Sen's entropy function formalism, we consider the Bekenstein-Hawking entropy of the extrema...
Abstract. Using quantum statistical method, we obtain the partition function of Bose field and Fermi...
By using 't Hooft's brick wall model, the corrections for a massless quantum scalar field to...
Recently it was shown by M. Guica, T. Hartman, W. Song and A. Strominger that the entropy of extreme...
Using the membrane model which is based on brick-wall model, we calculated the free energy and entro...
We calculate the entropy of the fermion field in the NUT-Kerr-Newman black holes in the background o...
Membrane method is used to compute the entropy of the NUT-Kerr-Newman black holes. It is found that ...
Using the membrane model which is based on brick-wall model, we calculated the free energy and entro...
It is well known that the Euler characteristic number of most black holes is 2 (or 0), and that only...
Using the membrane model based on the brick-wall model, we calculate the free energy and entropy of ...
Starting from the master equations of governing arbitrary spin fields, we calculate the free energy ...
Scalar field contribution to entropy is studied in arbitrary D dimensional one parameter rotating sp...
We study the statistical mechanics for quantum scalar fields under the multi-parameter rotating blac...
Using the membrane model which is based on the brick-wall model, we calculated the free energy and e...
The entropy of rotating Kerr-Newman-Kasuya black hole due to massive charged fields (bosons and ferm...
Based on Sen's entropy function formalism, we consider the Bekenstein-Hawking entropy of the extrema...
Abstract. Using quantum statistical method, we obtain the partition function of Bose field and Fermi...
By using 't Hooft's brick wall model, the corrections for a massless quantum scalar field to...
Recently it was shown by M. Guica, T. Hartman, W. Song and A. Strominger that the entropy of extreme...