K. H. C. Castello-Branco, R. A. Konoplya, A. Zhidenko
Published 2004-11-04, updated 2005-02-06Version 3
Using the Frobenius method, we find high overtones of the Dirac quasinormal spectrum for the Schwarzschild black hole. At high overtones, the spacing for imaginary part of $\omega_{n}$ is equidistant and equals to $\Im{\omega_{n+1}}-\Im{\omega_{n}} =i/8M$, ($M$ is the black hole mass), which is twice less than that for fields of integer spin. At high overtones, the real part of $\omega_{n}$ goes to zero. This supports the suggestion that the expected correspondence between quasinormal modes and Barbero-Immirzi parameter in Loop Quantum Gravity is just a numerical coincidence.
Comments: 5 pages, Latex, 3 figures, Physical Review D.,at press
Journal: Phys.Rev. D71 (2005) 047502
Ambiguity of black hole entropy in loop quantum gravity
Considering boundary conditions for black hole entropy in loop quantum gravity
Remarks on the black hole entropy and Hawking spectrum in Loop Quantum Gravity
