“When we meet a fact which contradicts a prevailing theory, we must accept the fact and abandon the theory, even when the theory is supported by great names and generally accepted.”

Claude Bernard

Imagine, a group of people is facing a task to break through the wall. The wall is quite high, its edges are not visible beyond the horizon. Each person has different initial resources, which makes the task even more complicated: one is standing with a couple of tons of trotyl, the other one has a mace in his hands, and another one has just a simple paper clip — so-so ammunition.

Explosions, crackling — a man with trotyl steps over the wall and disappears in the thick dust and large stone debris that have blocked the newly created passage. The other people understand that they can’t break through the wall without trotyl and start making other people, who came to fulfill the task, believe that. A crowd of people is gathering in front of the wall, everybody is making a lot of noise arguing about where to get trotyl, while a man with a paper clip, after taking a closer look at the remaining part of the wall, opens an unremarkable door and passes through the wall, leaving the buzzing crowd behind.

No wonder, many seemingly unshakable laws of physics and generally accepted postulates, at times, play with people the same joke. And when for the first time, 28 years ago, scientists from all over the world started talking about the validity of Cold nuclear transmutation, Charles Coulomb and his barrier were mentioned everywhere more often than God and the devil taken together.

Despite all the difficulties, over the past years the Cold Transmutation of elements has made many confident steps forward — Andrea Rossi, Alexander Parkhomov, Vladislav Karabanov’s “Synthestech” team, Alla Kornilova and many other researchers, instead of arguing, just presented their research results. Indeed, it’s better to see once … Using different methods, hundreds of people around the world could prove in practice that Cold nuclear transmutation exists and is already “breathing down the neck” of dangerous and complicated nuclear reactors.

Vladimir Kashcheev, Head of the scientific and technological department for management of spent nuclear fuel and radioactive waste, A.A. Bochvar High-technology Scientific Research Institute for Inorganic Materials, confessed in the Kommersant interview the following:

“Of course, at first I did not believe this,” says Vladimir Kashcheev, “because we were taught at school that there is a Coulomb barrier on the way of nuclear fusion, and in order to attach a positively charged proton to a positively charged nucleus, we need to overcome this Coulomb barrier. In order to do so, the proton must have a very high energy, which can only be obtained in accelerators or in nuclear reactors at high temperatures. Therefore, most of the scientific community is skeptical about the feasibility of so-called low-temperature nuclear reactions.”

However, after Vladimir Kascheev was given the opportunity to independently conduct an experiment on Cold Transmutation to verify the correctness of the results, he stressed that: “I am ready to confirm these results at all levels. And I find it worthwhile to repeat the experiment on other isotopes.”

Concerning the Cold Transmutation, the Coulomb barrier and the things alike, I can explain the following way. I just want to share it with you.

Imagine that the outer shell of an atom is like the walls of a house you live in. People inside the house are like protons. If people try to leave the house chaotically, they will bang against the walls. And in order to get out of the house you have to destroy the walls. In other words, to overcome the Coulomb barrier. But in reality, people do not leave their houses breaking down the walls. They go through the door or, in the extreme case, through the window. This door or a window is the way, the tunnel through which the proton exchange takes place. Perhaps, LENR processes also occur this way. Energy barriers and energy release are much lower.

The Coulomb barrier can be compared to the walls in an apartment house: isn’t it easier to simply exit through the door spending a minimum of energy, than spending all of your energy, speeding up, trying to break through the wall with your forehead? Yes, someone tried to break through a wall once, he made it and this experience was taken as a model … Well, maybe he just did not have a key?

As experiments show, in nature there are absolutely no closed-loop hermetic systems. One can assume that an atom also can’t be such a hermetic system. The only thing you should know is, where the door is and which key to use.

Official Website — https://synthestech.com