Amazing new particle that can eventually explain the dark matter

In Murray Gelman in 1981, to introduce the quarters as a Nobel Laureate, the basic ingredients of the material, see the interesting fact that the standard models, quarters and leptin particles, are present in a theory fully developed 2 years ago, with more and more harmony. N = 8 Super Gravity contains, in addition to particles of the standard model of spin 1/2, part of gravity: gravity (spin 2) and spin 3/2 of 8 grotino. If a really standard model N = 8 is related to Super Gravity, this relationship can potentially indicate a way to solve the most difficult problem of basic theoretical physics. The spin ½ sector contains exactly 6 quarters (U, D, C, S, T, B) and 6 leptons (electrons, mwons, tones, tones and neutrons) in the N = 8 supergravate and forbid the presence of particles of any other case. After 40 years of deep accelerator research has failed to discover any new issue N = 8 Super Gravity Material content is not only in line with our knowledge but also the only leading theoretical explanation of the number of quarters and leptin in the standard model! However, there were several defects in direct contact of N = 8 supergravate with the standard model, which is important that the electrical charges of the quarters and leptin were transferred through ± 1/6 in relation to known values, for example the charging -5/6 instead of -1 in the electron. Many years ago, about the Standards of the University of Warsaw, Poland and Hermann Nicolai’s faculty -related faculty, from the Faculty of Physics, Max Planck Institute for Gravity Physics (Albert Einstein Institute/AEI), about 8th. Able to move beyond. The particles modification is reaching far away, pointing to an unlimited balance K (E10), which is rarely known in terms of mathematics and is replaced by the standard model’s normal balance.

One of the amazing consequences of this amendment, which is described in the physical review posts and physical reviews, is probably charged with electricity, at a very large, large -scale, near the Plac Planck Scale, the billions of protons, near the public: 1 of them 1/3 and 2/3 of them. Gravity, though they are largely large, cannot be destroyed because there are no particles in which they can fall. Messenger and Nicolai suggested that 2 Grotovino of charge of 2/3 (the second 6) may have any particles of any kind of dark matter suggested so far. That is, the widespread advertiser candidate, either extremely mild, such as axis or intermediate (proton) large -scale vampps (weakly interacting particles) were electrically neutral, in compatibility with the name of ‘dark matter’. However, after more than 40 years of searching through many different methods and devices, no new particles were detected outside the standard model.

However, gravitino offers a new alternative. Although they are charged with electricity, they may be the candidate for the dark matter because they are so rare because they are so rare and therefore observe the ‘Do not shine in the sky’ and avoid extreme obstacles for the components of the dark matter. In addition, the electric charge of Gravatinos suggested a completely different way to try to prove its existence. The original paper in the euro in 2024. Physical Jay Messenger and Nicolai pointed out that neutrinos detectors can be suitable to detect the gurutovinos, based on different cantulators, water. However, the search has been made very difficult by their extremely delicious (potentially 10,000 km 3 per 10,000 km 3) in the solar system, which is why there is currently no possibility of detecting with available detectors. However, new giant, oil or liquid argon underground detectors, either built or planned, are now opening realistic possibilities for searching for these particles.

In all detectors, the Chinese Jiang Man is now under construction underground neutronic observatory (Juno), it seems that such a search has been predicted. Its purpose is to determine the characteristics of neutrino (actually antinutrino), but since neutrinos interact with the utter weakness with substances. In the case of Juno detector, this means 20,000 tonnes of organic, synthetic oil -like liquid, commonly used in the chemical industry, with a special increase, in a spherical vessel whose diameter is more than 40 40 meters, with more than 17,000 photomphler around the circle. Juno is about to start measurement in the second half of 2025.

In recently published paper Physical review research Through Messenger and Nicolai, with Adriana Crook and Michael Lesuk, a chemistry faculty at the University of Warsaw, a detailed analysis of these specific signatures is presented that the events caused by gravity are in Juno and in the future, such as a liquid organ detector. This article not only describes the theoretical background on both the physics and chemistry, but also the very detailed imitation of the potential signatures as a function of the gravity and track of the oil vessel. This requires a lot of modern knowledge about quantum chemistry and highly used CPU time calculations. The imitation had to keep a lot of potential backgrounds – eliminating the radioactive C14 in oil, the dark counting rate of the photomlylirs and the performance, the absorption of photons in the oil. The imitation shows that with the appropriate software, a unique signal will be left impossible to identify a unique signal through a gravity through a detector. Analysis determines new standards in terms of interconnection by combining two different areas of research: on the one hand, the most advanced methods of theoretical and experimental early particles and the modern quantum chemistry.

Finding super heavy gravity will be an important step in searching for gravity and a united ideology of particles. Since the attractiveness of the Planck Moss is predicted by the attraction of Salaqino, their detection will be the first direct indication of physics near the Planck scale and thus can provide valuable valuable experience of the unity of all the forces of nature.