Add to ORKGWe study the thermodynamics of a Dirac field in the background of a (1+1)-dimensional charged black hole; the Klein-Gordon equation and Dirac equation are resolved, respectively, with the 't Hooft boundary condition and ''quasiperiodic'' boundary condition. The corresponding wave functions are calculated and the expressions of free energy and entropies are given, respectively, which shows that the fermionic entropy has the same expression as that in the bosonic one, except that the coefficient is different. [S0556-2821(97)02922-6]
Using the membrane model which is based on the brick-wall model, we calculated the free energy and e...
In this work some proposals for black-hole entropy interpretation are exposed and investigated. In p...
The expression of Fermionic entropy is derived in Garfinkle-Horne dilaton black hole background, by ...
The Klein-Gordon equation and Dirac equation are solved in the backgrounds of a (1 + 1)-dimensional ...
The thermodynamics of Dirac field is discussed in the backgrounds of 3 dimensional Banados-Teitelboi...
Abstract. Using quantum statistical method, we obtain the partition function of Bose field and Fermi...
Making use of brick-wall model proposed by 't Hooft, we have obtained the free energy and the entrop...
Using the membrane model which is based on the brick-wall model, we have calculated the free energy ...
Using 't Hooft's brick wall model and Newman-Penrose's spinor analysis, the expression of the quantu...
Using the membrane model based on the brick-wall model, we calculate the free energy and entropy of ...
We discuss the connection between different entropies introduced for black hole. It is demonstrated ...
The semiclassical contribution to the partition function is obtained by evaluating the Euclidean act...
Using the membrane model which is based on brick-wall model, we calculated the free energy and entro...
AbstractApplying the method beyond semiclassical approximation, fermion tunneling from higher-dimens...
We examine models of fermions with infinite-range interactions that realize non-Fermi liquids with a...
Using the membrane model which is based on the brick-wall model, we calculated the free energy and e...
In this work some proposals for black-hole entropy interpretation are exposed and investigated. In p...
The expression of Fermionic entropy is derived in Garfinkle-Horne dilaton black hole background, by ...
The Klein-Gordon equation and Dirac equation are solved in the backgrounds of a (1 + 1)-dimensional ...
The thermodynamics of Dirac field is discussed in the backgrounds of 3 dimensional Banados-Teitelboi...
Abstract. Using quantum statistical method, we obtain the partition function of Bose field and Fermi...
Making use of brick-wall model proposed by 't Hooft, we have obtained the free energy and the entrop...
Using the membrane model which is based on the brick-wall model, we have calculated the free energy ...
Using 't Hooft's brick wall model and Newman-Penrose's spinor analysis, the expression of the quantu...
Using the membrane model based on the brick-wall model, we calculate the free energy and entropy of ...
We discuss the connection between different entropies introduced for black hole. It is demonstrated ...
The semiclassical contribution to the partition function is obtained by evaluating the Euclidean act...
Using the membrane model which is based on brick-wall model, we calculated the free energy and entro...
AbstractApplying the method beyond semiclassical approximation, fermion tunneling from higher-dimens...
We examine models of fermions with infinite-range interactions that realize non-Fermi liquids with a...
Using the membrane model which is based on the brick-wall model, we calculated the free energy and e...
In this work some proposals for black-hole entropy interpretation are exposed and investigated. In p...
The expression of Fermionic entropy is derived in Garfinkle-Horne dilaton black hole background, by ...