Motion Law of Graviton in Three-Dimensional Space and Its Influence on Star Distribution of Spiral Galaxy ()
ABSTRACT
According
to some fundamental hypotheses compatible with microphysics theory in allusion
to property of graviton shot by the spiral galaxy, we set up a motion trace
equation of graviton in the three-dimensional space, concluding method for
measuring the velocity of graviton. This theory reveals formation mechanism of symmetric
rotating arm image of the spiral galaxy. The rotating arm image conforms to
Archimedes spiral. Under the condition of using dynamic constraints, the image
that astrolabe is in thin-disk structure is naturally obtained. And then, we
also deduce the law that astrolabe thickness h is inversely proportional to the square root of the distance rxy between astrolabe and
galaxy center, according with actual crossrange galaxy observation image
excellently. This article, by utilizing several typical galaxy observation
images with completely different appearances and shapes, verifies the motion
trace law of graviton in three-dimensional space. And the theoretical
simulation data meet observation image data very well. As per the discovery in
the simulation of three-dimensional theoretical model, changes of parameters in
theoretical model will exert a great influence on the shape of galaxy. This
theory owns exclusively important meaning, not only to astrophysics, but also
to reconstruction and development of relativity theory and the whole basic
physics theory, as well as breaking through the current dilemma in studying
graviton property.
Share and Cite:
Luo, P. (2014) Motion Law of Graviton in Three-Dimensional Space and Its Influence on Star Distribution of Spiral Galaxy.
Journal of Modern Physics,
5, 1910-1930. doi:
10.4236/jmp.2014.517186.