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Neutron star collisions provide the first hand glimpse of the 5-D Hyperspace
Scientists are eager to get a glimpse of the 5-D Hyperspace. But that is not an easy task. There is no terrestrial telescope that can provide a view of the Hyperspace. Our technologies are still struggling in the particle accelerators in finding the virtual particles that come from and go the 5-D Hyperspace.
According to some scientists, there is a way to get an early glimpse of the Hyperspace. Any opening to the Hyperspace will produce gravitational radiation of relatively large proportions. It will also be accompanied by electromagnetic radiation. These are spatial suction force of the Hyperspace projected in our 3-D Physical Universe.
Gravitational waves are said to be similar to light waves. Both propagate through space at different frequencies, radiating outward like ripples on a pond. But gravitational radiation is much weaker than electromagnetic radiation, which includes light, radio waves and X-rays. This is because the fundamental force of gravity is weaker than the fundamental electromagnetic force.
The universe is filled with electromagnetic waves from different sources. It is not easy to detect electromagnetic radiations pointing towards a Hyperspace opening. It is relatively easier to locate intense gravitational radiation pointing towards openings in the Hyperspace.
Taking the clue from the above, scientists now believe that sizable Hyperspace openings take place when two neutron stars orbiting each other spirals inward toward an eventual dramatic collision. Such collisions are plenty on the Universe. Recent observations have negated the theory that very few such collisions take place. As a matter of fact, astronomers had calculated that neutron star mergers might take place once every decade or two within a 60-million light-year radius of Earth, a span that includes our galaxy and a few neighbors. It is also the distance to which ground-based gravitational wave observatories expect to be able to detect the events.
The intense gravitational radiation at that moment of the collision of the two neutron stars manifests a fresh opening to the Hyperspace. Eventually a Blackhole is formed. When the Blackhole is formed, it is too late to get a glimpse of the mysterious 5-D Hyperspace. The glimpse of the Hyperspace is only available to our current level of terrestrial technologies right at the moment of the neutron star collision.
The biggest challenge is to find colliding neutron stars in our vicinity. Only six neutron-star pairs, called binary systems, are now known to terrestrial technologies. At that rate it will take a minimum of 85 million years before we can observe such an event of neutron star collision.
However, there are innumerable colliding neutron stars and blackholes in our vicinity especially in dark galaxies undetected as of this date. Scientists are making efforts to develop technologies to detect them so that we get a glimpse of the Hyperspace in a year or two.
TECHNOLOGY ARTICLES
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