German scieists proposed a new solution to better hu dark matter and its fundameal particles.
According to Tekna technology and technology news service, a group of iernational physicists in their new research with the aim of better revealing dark matter unveiled a new technology called BabyIAXO, which can be considered a promising option for detecting dark matter.
In general, the detection of dark matter was determined through astronomical observations, and the observed amou of ordinary matter was not enough to explain the path of stars and galaxies in our universe.
Although there is 5 times the amou of dark matter in the universe compared to normal matter, the fundameal particles that make it up have not yet been ideified by physicists, and for this reason, strange and differe options have been considered regarding these particles.
One of these ieresting and active particles are axions. Currely, there are many detectors for detection of axion around the world, one of them is ADMX and HAYSTAC in America and another one is CAST in Switzerland, none of them have recorded positive results so far.
Therefore, the curre physicists are going to use a new detector at the Iernational Axion Observatory with greater sensitivity in order to advance the better search for axions. Physicists expect to use highly sophisticated and expensive new technology to detect axons. A simplified version of this technology, called BabyIAXO, is a large-scale probe designed to search for axons originating from the Sun and is currely under developme. This technology is supposed to be installed and used in the particle physics research ceer in Hamburg. In this helioscope, there is a magnet with two holes measuring 10 meters and 70 cm in diameter, which with a homogeneous and very strong magnetic field can increase the sensitivity of the experime compared to the experimes. increase sharply. Using this experimeal helioscope, physicists can detect an axion with a mass in the range of one electron volt.
