Galaxy clusters stay hot: XRISM uncovers cosmic secrets

Galaxy clusters are the largest structures in the universe, held together by the gravitational interaction of dark matter. Inside them, gas heats up to temperatures reaching tens of millions of degrees, leading to the emission of intense X-ray radiation. Until now, there was a lack of conclusive evidence on how these mysterious formations develop, specifically through collisions and mergers.

According to SciTech Daily, the XRISM team, while studying the Centaurus cluster, discovered that gas movements in its center prevent it from cooling down. The gas moves at speeds of 80 to 190 miles per second, which maintains high temperatures. This discovery provides evidence that collisions and mergers of clusters are crucial for their evolution.

Research has shown that the gas in the center of the Centaurus cluster moves as a result of previous collisions with other clusters. These movements, called "sloshing," mix the gas, preventing it from cooling down and maintaining high temperatures.

This discovery is a breakthrough in understanding the formation and evolution of galaxy clusters. Thanks to the precise measurements of XRISM, scientists can now better understand how the largest structures in the universe evolve and what processes impact their dynamics.

The research published in "Nature" not only deepens our knowledge of galaxy clusters but may also contribute to a better understanding of the formation of other celestial bodies.