Scientists working with the Event Horizon Telescope (EHT) have made a significant discovery about the supermassive black hole Sagittarius A* (Sgr A*) at the center of the Milky Way. Using sophisticated tools and a global network of telescopes, they captured powerful and organized magnetic fields spiraling from the edge of the black hole in polarized light, a structure not seen before in these images.

The study reveals that both black holes have strong magnetic fields, suggesting that this could be a fundamental characteristic of black holes. Previous observations of M87 have shown that its magnetic fields have enabled it to launch powerful jets of material into its surroundings. New images of Sgr A* suggest that a similar process may be taking place there.

The collaboration used advanced techniques to image Sgr A* with polarized light, which is challenging due to the rapid changes in these cosmic objects. The resulting image provides valuable insight into the nature of these enigmatic cosmic objects and contributes significantly to our understanding of their magnetic fields and structures.

This research was published in The Astrophysical Journal Letters and involved over 300 researchers from around the world. Imaging black holes with polarized light is difficult due to their fast changes, making it challenging to capture detailed photographs. However, with sophisticated tools and global networks of telescopes, scientists can create virtual Earth-sized telescopes like EHT to observe these cosmic objects effectively.

The discovery highlights the importance of studying black holes with polarized light as it provides valuable insights into their magnetic fields and structures. This research will undoubtedly contribute significantly to our understanding of these enigmatic cosmic objects’ nature and provide new insights into how they interact with their surroundings.

In conclusion, scientists working with EHT have made an essential discovery about Sgr A*, revealing powerful magnetic fields spiraling near the black hole’s edge in polarized light. This research has contributed significantly to our understanding of black holes’ nature and provides valuable insights into how they interact with their surroundings.

By Samantha Johnson

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