The possibility that quantum entanglement rewrites gravity is the most shocking thing that physics proposes us

In the exotic world of Quantum physics There are probably few strangest phenomena than entanglement. This quantum mechanism does not have an equivalent in classical physics, and is that the state of the quantum systems involved, which can be two or more, It is the same. This means that these objects, in reality, are part of the same systemeven if they are physically separated. In fact, the distance does not matter.

If two particles, objects or systems are intertwined through this quantum phenomenon, when we measure the physical properties of one of them we will be instantly conditioning the physical properties of the other system with which it is intertwined. Even if it is on the other tip of the universe. It sounds for science fiction, it is true, but however strange and surprising that this phenomenon seems empirically proven. In fact, it is, together with the overlap of states, one of the fundamental principles of Quantum computing.

This study suggests that gravity is a consequence of quantum information

A way of defining quantum gravity requires observing it as the theory of physics that aspires to unify gravity as described The General Theory of Relativity of Einstein and quantum mechanics. It is, in short, a theory of all that attempts to explain what are the mechanisms that lead the behavior of gravity in the scale of subatomic particles. The problem is that so far gravity as we understand it from Einstein It only works well in the macroscopic world with which we are familiar.

Physicists have been trying to clarify the relationship between gravity and quantum physics. In this context there is no doubt that each new contribution counts, and the one made One of the most surprising How many have emerged in recent years. And is that what he proposes in the scientific article he has published in Annals of Physics It is objectively revolutionary.

Its text raises the possibility that gravity is not a fundamental force, but the result of the way quantum information in the universe is organized. The reason why I have dedicated the first lines of this article to quantum interlacing is that Neukart argues that this phenomenon has the ability to condition directly The geometry of the space-time continuum. This means that gravity could be the result not only of the curvature that propitiate objects with mass or energy in space-time, but also of quantum interlocation.

To reach this conclusion, this scientist has developed Einstein’s equations by adding a variable that represents quantum information. The effects of their prediction are so tiny that They are currently undetectable From an experimental point of view, but there is the possibility, if finally Neukart’s theory is confirmed, that their theoretical framework helps cosmologists to better understand the extreme phenomena that take place, for example, in The interior of black holes.

In addition, this physicist suggests that quantum entanglement could explain where the value of the cosmological constant comes from. A form not quite precise but affordable to understand what this constant is is to observe it as a uniform and continuous force that stretches the space that contains everything. Anyway, Neukart’s theoretical proposal has several limitations that we should not overlook.

On the one hand its effects are presumably noticeable only near the Planck scale. And, in addition, it does not solve the quantum gravity, of which we have spoken a few lines above. Even so, this proposal is very interesting for a reason: it suggests that, in reality, the space-time continuum It could be a manifestation of quantum information which contains the universe, so it invites physicists to address new lines of research.

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More information | Annals of Physics

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