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Maps of the starry sky created using space apparatus IBEX, demonstrate a surprisingly bright stripe mysterious radiation located on the edge of our solar system. Scientists claim that this mysterious energy first recorded NASA’s spacecraft in 2009. On that moment this radiation is unofficially dubbed the “roadmap in sky “for the interstellar magnetic field. Today, comparing space observations with ground-based studies of this riddle, scientists have concluded that by studying the nature of mysterious energy, they will be able to get more detailed information about existing the laws of space at the edge of our solar system. Moreover, research in this area may shed light on exactly how our sun protects the solar system from high rays energies of other stars. Maps of ground-based observatories have shown that cosmic ray clusters are made up of particles that have extremely high energy charge. These particles appear in the result of the interaction between the solar wind and interstellar matter. However, their beam fluxes scatter along the interstellar magnetic field, while the mysterious radiation detected relative to the interstellar magnetic field is approximately perpendicularly. Research Leader Nathan Schwadron sure that to date, scientists will not be able to give comprehensive answers regarding this riddle since the border region space (between our solar system and outer space), was only once reached by NASA’s spacecraft Voyager 1 and, accordingly, is practically unexplored. However, some thoughts are taking place today. In what is there a mystery? Inside the heliosphere (known as the sphere influence of the Sun on the Solar system), the “solar wind. “It consists of streams of high-energy particles that block other cosmic rays emanating from interstellar space. Transitional zones between these two regions called helium shells, which in turn are susceptible to the influence of magnetic fields. This is where the riddle arises. Why magnetic field measurements at the edge of the interstellar the spaces that Voyager 1 recorded are fundamentally differ from the magnetic field obtained from IBEX spacecraft? Since both devices went through everything technical tests, and accordingly could not make a mistake, the study of this issue among scientists almost reached large-scale dispute. Nathan Schwadron is of the opinion that Voyager 1 could record interstellar plasma measurements, coming along the lines of the magnetic field, while still in helio shell. In this regard, his testimony may not be accurate. However, NASA experts and other independent groups of scientists are sure that Voyager 1 recorded measurements while it was in interstellar space. They focused on the fact that the collection information of the device was programmed for a certain time and location. Based on this, many experts are slopes assume that a system malfunction occurred in the IBEX device, which also captures space information at a fairly significant distance from Earth, which itself implies serious discrepancies. Since today prove this or that the version is impossible, Nathan Schwadron concluded: “To understand what is really happening, we, unfortunately, are missing understanding of physics. However, re-measurement between the lines of force magnetic field can clearly demonstrate what and how it changes conditions in the boundary region of our solar system. “There seems to be nothing left but to expect new research results, and hope they help unravel at least this secret of our solar system.
NASA Time Sun Solar System
