By means of satellite instrumentation, astronomers in 1961 discovered what appeared to be an unusual nebula. We normally understand the nebula phenomenon as a vast cloud-like mass of gas or dust. This one, however, appeared to have anomalous properties and was named the Golden Nebula. The public's attention was not drawn to this unusual revelation until much later, presumably when it was realised that this nebula's location was coincident with the projected orbit of our solar system. Let us outline the mechanics of this anticipated encounter of our solar system with the photon belt. The whole universe is held together by means of vortices within vortices of centripetal energy--with their associated electromagnetic fields--like whirlpools on water, within larger whirlpools (this is the machinery behind Einstein's spacetime topology of general relativity). These spiralling energies give rise to natural spacetime orbits: satellites around planets, planets around stars, solar systems around other more major vortex centres, and so on. Our planet Earth orbits the Sun once a year but our solar system as a whole also traverses an orbit in this section of the galaxy with a period of about 24,000 years. There are many other solar (star) systems in this cyclic motion (just as there are numerous planets orbiting the Sun). The Pleiades, which is encircled by the photon belt, is about 400 light years from us, and is part of this system and in fact our solar system orbits the central sun of the Pleiades, Alcyone. The belt consists of many photon bands emanating from the centre of the galaxy, and associated with the spiral arms of the galaxy.
Click for full article