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Article Dans Une Revue International Journal of Modern Physics A Année : 2008

Microcanonical Model for a Gas of Evaporating Black Holes and Strings, Scattering Amplitudes and Mass Spectrum

Résumé

We study the system formed by a gas of black holes and strings within a microcanonical formulation. The density of mass levels grows asymptotically as rho (m)≈ (dmi + bmi2)-ae8/pi{2}(dmi + bmi2)}, (i = 1,...,N). We derive the microcanonical content of the system: entropy, equation of state, number of components N, temperature T and specific heat. The pressure and the specific heat are negative reflecting the gravitational unstability and a nonhomogeneous configuration. The asymptotic behavior of the temperature for large masses emerges as the Hawking temperature of the system (classical or semiclassical phase) in which the classical black hole behavior dominates, while for small masses (quantum black hole or string behavior) the temperature becomes the string temperature which emerges as the critical temperature of the system. At low masses, a phase transition takes place showing the passage from the classical (black hole) to quantum (string) behavior. Within a microcanonical field theory formulation, the propagator describing the string-particle-black hole system is derived and from it the interacting four-point scattering amplitude of the system is obtained. For high masses it behaves asymptotically as the degeneracy of states rho(m) of the system (i.e. duality or crossing symmetry). The microcanonical propagator and partition function are derived from a (Nambu-Goto) formulation of the N-extended objects and the mass spectrum of the black hole-string system is obtained: for small masses (quantum behavior) these yield the usual pure string scattering amplitude and string-particle spectrum Mn≈ &surd; {n}; for growing mass the spectrum describes all the intermediate states up to the pure black hole behavior. The different black hole behaviors according to the different mass ranges: classical, semiclassical and quantum or string behaviors are present in the model.

Dates et versions

hal-03742353 , version 1 (02-08-2022)

Identifiants

Citer

D. J. Cirilo-Lombardo, Norma G. Sánchez. Microcanonical Model for a Gas of Evaporating Black Holes and Strings, Scattering Amplitudes and Mass Spectrum. International Journal of Modern Physics A, 2008, 23, pp.975-1000. ⟨10.1142/S0217751X08039554⟩. ⟨hal-03742353⟩
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