Sonnenstorm risk: Super Flares surprise researchers with fatal frequency!

Sonnenstorm risk: Super Flares surprise researchers with fatal frequency!

scientists warn of a potential threat from the depths of space: superflaar, extremely strong radiation outbreaks on sun -like stars, could occur much more often than previously. A current study by the Max Planck Institute for Solar System Research (MPS) has shown that such catastrophic events could occur on average every 100 years. These findings are based on data collected by the Kepler NASA world space telescope and draw an alarming picture. According to the examination, which analyzed the brightness of 56,450 stars, a total of 2,889 superflares could be identified. Dr. Valeriy Vasilyev, one of the main authors, noticed: "We were surprised by the frequency that stars can generate superflares with the stars," as was emphasized in a report at Merkur.

devastating effects on earth

A Superflare releases an energy that corresponds to a trillion hydrogen bombs. Such explosions could have catastrophic consequences for the earth, including massive power outages, interruptions of radio communication and considerable damage to satellites. Professor Dr. Sami Solanki, director of the MPS, emphasized that we can gain important references to the activity of our sun by monitoring similar stars. Historically, the Carrington event of 1859 is a concise example of how strong the effects of a solar storm can be: in this event, telegraph lines fingered fire and the northern light was visible until Cuba-a demonstration of the enormous power of such events, which is far from comparable to the energy of a superflar. In view of these new findings, scientists are preparing to predict future super flares, because timely warning could help to switch off satellites in good time and thus protect the infrastructure. The research results of this important study published in the renowned magazine Science underline the urgency of better understanding the risks of superflares and taking appropriate measures in order to minimize the consequences of such astronomical events.