TITLE:
Gravitational Self Energy Mass and Gravitational Radiation Quantization within the Framework of the Generalized General Relativity
AUTHORS:
M. D. Abdalla, A. El-Tahir, M. H. Eisa, Abdulaziz S. Alaamer, M. Elnabhani, K. G. Elgaylani
KEYWORDS:
Gravitational; Energy Mass; Radiation; Generalized; General Relativity
JOURNAL NAME:
International Journal of Astronomy and Astrophysics,
Vol.3 No.2,
June
7,
2013
ABSTRACT:
In this work, the mass resulting from self energy is
obtained by utilizing the generalized relativity. The expression for the mass
which results from the gravitational field is finite. This expression is found
by considering the mass first as small tiny string and second as small sphere.
A useful equation for the propagation of graviton waves in space indicates that
graviton propagates as travelling wave. By treating gravitation waves as wave
packets a plank quantum expression for graviton energy dependent on the
frequency is also found. The gravitational constant (parameter) is quantized
also in this work.