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Canonical Quantization and the Statistical Entropy of the Schwarzschild
Black Hole
release_d4rvxkrl7bbl3m4mcyfvtyvr7m
by
Cenalo Vaz
Released
as a report
.
1999
Abstract
The canonical quantization of a Schwarzschild black hole yields a picture of
the black hole that is shown to be equivalent to a collection of oscillators
whose density of levels is commensurate with that of the statistical bootstrap
model. Energy eigenstates of definite parity exhibit the Bekenstein mass
spectrum, M ∼√( N) M_p, where N∈ N. From the
microcanonical ensemble, we derive the statistical entropy of the black hole by
explicitly counting the microstates corresponding to a macrostate of fixed
total energy.
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