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Can the time be returned? In a laboratory, at a very small quantitative level, scientists have been able to take the time back a fraction of a second.
The research, published in the journal Scientific Reports, was conducted by scientists from the Moscow Institute of Physics and Technology, in collaboration with US and Swiss scientists. In a quantum computer, researchers were able to restore three quabits in a fraction of a second, from complex chaos to simple order.
QuaBit is the smallest unit possible for measuring information in a quantum computer and is translated into a quantum bit. This is a different unit from the traditional computers bit, either zero or one. Quantum is subject to the laws of quantum physics and so is the probability of zero and the probability of one.
According to the laws of physics, systems evolve from simplicity to complexity as time passes. What is known in thermodynamics as the arrow of time. Time runs linearly from past to present to future.
It is not possible to go from complexity to simplicity without going back in time. This is contrary to the second law in thermodynamics.
To understand this, imagine adding an ink dot to a cup of water. The first moment to add the point of ink, before it spreads in water, is at first in the state of simplicity. Over time, the ink spreads in the water, randomly. The opposite does not happen, namely that the ink spot passes from time to time complex to simplicity.
Imagine also billiard balls. In his first case be organized in triangle. After being randomly scattered around the table, they can not return to their original order, as opposed to the hash process, unless the time returns.
Of course, using the camera, you can see the process of returning the present complex time to the simple past. But this does not happen in nature, only on the screen.
In the experiment, scientists designed a quantum computer program in which the units of information (cavities) begin with absolute simplicity. Each qubit must be zero. These information units then move to a more complex situation: strings of zeros and individual strings. The first simple case disappears.
Then, thanks to a program specifically designed for this purpose, the quantum computer is able to return from chaos to order status, from complexity to simplicity. This means that canteens are obsolete.
The computer was able to render two units of quantum information from complexity to simplicity in 85% of cases.
However, when adding a third unit, the quantum computer fails to return time in 50% of attempts.
This is bad news for science fiction fans. The level of complexity of natural reality goes well beyond that and we mean that we will never succeed in traveling in time!
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