[2] viXra:1001.0021 [pdf] submitted on 18 Jan 2010
Authors: Jacob Biemond
Comments: 32 pages, including 5 figures and 5 tables.
In this paper the recently proposed three tori model for the explanation of three high frequency
quasi-periodic oscillations (QPOs) has been applied to black holes. The circular tori are: an
outer torus with charge Qo, a torus with mass mm in the middle and an inner torus with charge
Qi, whereas the star bears a charge Qs. Especially, the gravitational interaction between the
torus with mass mm and the masses of the other two tori has been taken into account in this work.
For the explanation of four low frequency QPOs a special interpretation of the gravitomagnetic
theory has again been applied.
Predictions of the new model are compatible with deduced high and low frequency QPOs of the
stellar black hole XTE J1550-564 and the supermassive black hole Sgr A*. Moreover, the
Lense-Thirring precession frequency for black holes is discussed. Furthermore, it is shown, that a
massive torus around Sgr A* may lead to a higher and anisotropic observed mass for the black hole.
Finally, the origin of jets is investigated by studying the radial motion of charge in the Kerr-Newman
space-time. It is shown that charge may be bound on a shell slightly outside the ergosphere.
Category: Astrophysics
[1] viXra:1001.0007 [pdf] replaced on 9 Jan 2010
Authors: Scott S Neal
Comments: 6 pages, 3 figures
Traditional theories on cosmology require a sufficient amount of CP violation, undiscovered matter particles
and missing energy to explain what is observed in our universe today. Traditional theories on antimatter assume
that if antimatter atoms existed, they would distort space-time in the same way as normal matter. However,
gravitational forces between antimatter atoms have not yet been experimentally measured. This paper speculates
on what might happen if antimatter distorts space-time opposite to normal matter. The repulsive force of the
anti-hydrogen atoms in the voids between galaxies would cause those voids to expand and would exert additional
forces pressing inward on the galaxies. Simulations of this model produce galaxy rotation curves which match
what is observed today without the need for any Dark Matter. An explanation of the MOND paradigm is also
provided.
Category: Astrophysics