A correction to the Immirzi parameter of SU(2) spin networks

The elegant predictions of loop quantum gravity are obscured by the free Immirzi parameter (γ). Dreyer (2003), considering the asymptotic quasinormal modes spectrum of a black hole, proposed that γ may be fixed by letting the j=1 transitions of spin networks as the dominant processes contributing to...

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Bibliographic Details
Published inPhysics letters. B Vol. 741; pp. 280 - 283
Main Author Sadiq, M.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 04.02.2015
Elsevier
Subjects
Black hole
formula omitted
Immirzi parameter
Isotropic oscillator
Loop quantum gravity
Quasinormal modes
Immirzi parameter
SU
Black hole
Loop quantum gravity
Isotropic oscillator
Quasinormal modes
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Summary:The elegant predictions of loop quantum gravity are obscured by the free Immirzi parameter (γ). Dreyer (2003), considering the asymptotic quasinormal modes spectrum of a black hole, proposed that γ may be fixed by letting the j=1 transitions of spin networks as the dominant processes contributing to the black hole area, as opposed to the expected j=1/2 transitions. This suggested that the gauge group of the theory might be SO(3) rather than SU(2). Corichi (2003), maintaining SU(2) as the underlying gauge group, and invoking the principle of local fermion-number conservation, reported the same value of γ for j=1 processes as obtained by Dreyer. In this note, preserving the SU(2) structure of the theory, and considering j=1 transitions as the dominant processes, we point out that the value of γ is in fact twice the value reported by these authors. We arrive at this result by assuming the asymptotic quasinormal modes themselves as dynamical systems obeying SU(2) symmetry.
ISSN:0370-2693
1873-2445
DOI:10.1016/j.physletb.2015.01.004