[4] viXra:1007.0056 [pdf] replaced on 22 Aug 2010
Authors: Philip Gibbs
Comments: 66 Pages, originally published as a website in March 1996.
The cyclotron note books are a collection of essays about fundamental physics and metaphysics.
The central essay is about the principle of event-symmetric space-time, a new theory about how
to do quantum gravity. The style is more technical in some parts than in others. Each essay
can be read independently but if you find that one of them has terms which you don't understand
you may find them explained in an earlier one. The later ones may be too difficult for the
layman and even I don't understand the last one.
Category: Quantum Gravity and String Theory
[3] viXra:1007.0050 [pdf] submitted on 28 Jul 2010
Authors: V.A.Induchoodan Menon
Comments: 19 pages
The author after introducing the concept of the vean (vacuum
energy absorption) process shows that it not only crystallizes the
progressive nature of time but also causes gravitation and the
red shift of light emitted by far off galaxies [1]. He now shows
that the thermodynamics of the primary gas in a gravitational
field leads to the principle of equivalence and to its field
equations of general relativity. The curvature of the space-time
is seen to emerge from the anisotropy of the fluctuations in the
Higgs field in the neighborhood of a massive body arising from
the vean process. According to him unlike the currently
accepted interpretation of general relativity the gravitational
field based on the vean process does not exhibit non-linearity.
Category: Quantum Gravity and String Theory
[2] viXra:1007.0047 [pdf] replaced on 20 Aug 2010
Authors: S. Halayka
Comments: 3 Pages.
The possibility of Universe-scale black holes living in closed 3D space of constant
positive curvature was briefly considered in previous work. Further consideration
of this possibility is given here. A possible link between gravitation and
electromagnetism is discussed.
Category: Quantum Gravity and String Theory
[1] viXra:1007.0039 [pdf] submitted on 25 Jul 2010
Authors: S. Halayka
Comments: 13 Pages.
In earlier work, it was found that the edges of a complete graph can
very nearly form a radially symmetric field at long distance in
at 2D and
3D space if the number of graph vertices is great enough. In this work, it
is confirmed that the edges of a complete graph can also very nearly form
a radially symmetric field in closed 2D and 3D space of constant positive
curvature if the graph is small compared to the entirety of the space in
which it lives and if the number of graph vertices is great enough.
Category: Quantum Gravity and String Theory