The collaboration between the observer from gravitational wave with laser interferometer (Ligo) and Virgo would have detected evidence of the existence of another universe, according to a new preliminary article analyzing the unusual gravitational event GW190521, writes IFLSCIANCE.
Scientists claim that GW190521 – a SEmnal observed for only 0.1 seconds, – it could be the proof of the existence of another universe “Connected to our universe through a neck.”
According to them, a black hole from another universe may have been detected, connected to ours by the name of Wormholes (wormhole).
Gravitational wave detectors are amazing even without the potential to detect wormholes, the source quoted shows.
At the time of Ligo, its purpose was to detect gravitational waves (GW)-space-time waves, whose hypothesis appeared over a century ago.
“Einstein predicted for the first time the gravitational waves in 1916, as a consequence of the general theory of relativity. In this theory, mass concentrations (or energy) deform space-time, and changes in the form or position of these objects cause a distortion that propagates through the universe at the speed of light (ie a gravitational wave).“explains Barry C. Barish from the California Institute of Technology in an article.
Detection of gravitational waves is difficult and requires sensitive equipment in the two ligo arms, but, from a conceptual point of view, it is quite simple to understand.
“Everything you need to build an interferometer from gravitational waves are two rays of light, which move between pairs of mirrors on pipes that go in different directions, say north and west. The effect of a gravitational wave should stretch the space in one direction and reduce it in the right direction“Says Ed Daw, Physics lecturer at the University of Sheffield, in an article for The Conversation.
Worm holes are hypothetical structures. Photo shutterstock
The specialist explained that on Earth, this would cause mirrors to swing slightly so that the distance between a pair of mirrors to shrink, while the other increases:
“Balance is, in fact, the response of mirrors to the extent and compression of space-time, which is simply amazing.”
The Ligo or Virgo interferometer detectors, managed by the European Gravitational Observatory (EGO), monitor the subtle changes of the distances caused by the gravitational waves passing over the ground, recording events that cause less than 1/10,000 of a proton width.
Using this configuration, Ligo became the first experiment to detect gravitational waves and more.
“Together, the network of detection of gravitational waves, known as LVK (Ligo, Virgo, Kagra), has captured a total of about 300 black holes mergers, some of which are confirmed, while others are waiting for additional analyzes“Explains Ligo.
In the current research period, the fourth of the first period of 2015, LVK has discovered over 200 candidate black holes mergers, more than double the number detected in the first three periods, according to Ligo.
It is possible to have detected something much more exotic: a black hole in another universe, connected to ours through a wormhole, shows the quoted source.
What are wormholes holes
Worm holes are hypothetical structures that connect a distant point in space, or two universes, and were invoked for the first time by Albert Einstein and Nathan Rosen in 1935. “Wormholes” were never detected in the Universe.
The team that developed the new article claims that the GW190521, a gravitational wave event detected by Ligo-Virgo collaboration on May 21, 2019, is a good candidate for detecting a real worm hole.
According to the team, the signal is unusual for its extremely short duration, about 0.1 seconds, and by the lack of spiral-lusion morphology, according to the team.
His hypothesis is that GW190521 could represent “A single GW echo impulse isolated from the wormhole, which is the post-fussing remnant of BBHs from another universe and connected to our universe through a neck“, The team shows.
“The post-fusion signal passes through the neck of the wormhole and penetrates the barrier of the photon sphere on the part of our universe, and can be detected in our universe as a short-term explosion, without a pre-failure,” say the researchers.
A systematic models of models may be required, researchers say
The team that modeled the script of the wormhole discovered that it could produce a zgomot report comparable to the observed event. However, it does not currently match the event better than the scenario of the binary fusion of the black holes proposed by the Ligo-Virgo collaboration.
“It is noted that, recently, Ligo-Virgo collaboration reported the detection of GW231123 on November 23, 2023, an event that has a similar nature to the GW190521 (39), of short-term, similar to an explosion. This event motivated intensive investigations on the nature of its source. A systematic test comparison test including various possible sources for such short -term GW signals could be required for better understanding of the physical origins of the appropriate GW events.“the team concludes ”.
