Discovery at CERN: Are the paths in time a reality?

8 21. 08. 2017
6th international conference of exopolitics, history and spirituality

The physicists of the research center of the European Organization for Nuclear Research (CERN) have found during the experiment that subatomic particles can move at a speed that exceeds the speed of light.

As reported, the CERN neutrinos beam directed into an underground laboratory in Gran Sasso, Italy, a distant 732 of kilometers, reached its destination a few billionths of a second before it moved at the speed of light.

If the experimental data is confirmed, then Einstein's theory of relativity will be disproved, according to which nothing can move faster than light.

Based on scientific data, its neutrinos bundles were over sixty nanoseconds, which contradicts the postulate that elementary particles can not move at a speed higher than the speed of light.

The Russian BBC talked about the results of the experiment with Ruben Saakyan, Professor of Physics at University College London.

BBC: You worked in the Gran Sasso lab and it is obvious that you are well acquainted with the OPERA experiment.

Ruben Saakyan: "I left Labor in Gran Sasso more than ten years ago when OPERA was just starting out. It is an experiment that deals with the search for such a phenomenon, such as neutrinos oscillations, ie changes of one type of neutrinos to another.

Neutrin are fundamental particles, so-called building stones of the universe. They have a number of interesting features, including changing from one type to another. The OPERA experiment is predestined to study this problem.

This result (data that neutrinos move faster than light) was a by-product of the experiment.

BBC: Are scientists presented the results convincing?

RS: The published results look convincing. In experimental science there is a numerical degree of confidence in the result, that is, your measurement must exceed the measurement error at least five times. And here's the six-fold increase.

On the other hand, there are complex measurements, there are many elements and there are many ways to err on each stage. Therefore, it is necessary to approach it with health skepticism. It is said to the authors that they do not explain the result, but simply inform the data obtained during the experiment.

BBC: How did the world scientific community react to this data?

"One of the possible models for traveling faster than light is the presence of other dimensions in space."

RS: The world community has responded to healthy skepticism and even conservatism. This is a serious experiment and not a populist statement.

The consequences, if the truth of these data is proven, are too serious to be easily understood.

Our basic ideas about the world will change. Now, people will expect further publications of systematic experimental errors and, most importantly, data from independent experiments.

BBC: What, for example?

There is an American MINUS experiment that can confirm these measurements. It is very similar to OPEŘE. In the accelerator a bundle of neutrinos is formed, which is then sent to an underground laboratory seven hundred and thirty kilometers away. The essence of measurement is very simple. You know the distance between your source and the detector and you measure the time it has arrived for. This is how you determine the speed.

The Devil is hiding in details. MINUS had done similar measurements four years ago, but then the quantity they measured and the error were comparable. Their key problem was that they did not have the exact distance.

Measuring these seven hundred and thirty kilometers between the source and the detector with absolute precision is complex, but the OPERA experiment has recently proven it with twenty centimeters of geodetic methods. MINUS will have to try to do the same and then check the data of this experiment.

BBC: If the result of the experiment is confirmed, what impact will it have on traditional worldviews?

RS: If confirmed, the result will be very significant. Now there are two theories that explain from a scientific point of view all the world that surrounds us. It is the quantum theory of the microcosm and Einstein's theory of relativity.

The result of the experiment (neutrinos moving at a speed exceeding the speed of light) directly contradicts Einstein's theory of relativity, which claims that at any point the speed of light is constant and nothing can overcome it.

There are a huge number of dizzying consequences, especially travel time (for particles).

BBC: How can it be explained that neutrino can move faster than light?

RS: One of the possible models to travel faster than light is another dimension in space. Maybe together with our three dimensions (plus time) we have four, fifth, sixth, etc., which we do not see. Perhaps the neutrino, thanks to its unique properties, can jump as if to cut the angles between these dimensions.

Imagine an ant that climbs an apple. For him, the world is two-dimensional. Therefore, to get from the southern pole to an apple to the north, it may take quite some time. But for the worm that can pass through the apple through, there is a third dimension to make it get much faster.

This is one of the possible explanations, and if it turns out to be true, then it's a huge thing. When we talk about practical use, we may find in the future a way we can jump into hyperspace.

But I would like to call for healthy skepticism. The consequences of these results are so serious that, notwithstanding our great respect for the scientists who have announced this, we can not yet say what we have discovered, what we have confirmed and what we think is so in reality.

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