Newly captured image shows strong magnetic fields surrounding the black hole at the center of the Milky Way

A group of scientists working with the Event Horizon Telescope (EHT) have made a groundbreaking discovery regarding the supermassive black hole Sagittarius A* (Sgr A*) at the center of our Milky Way galaxy. They found that there are powerful and organized magnetic fields spiraling from the edge of the black hole, a structure that had never been seen before in polarized light. This new image offers insight into the magnetic field structure around Sgr A*, which appears to be similar to that of the black hole in M87, located in another galaxy.

The research involved a collaboration of over 300 scientists from around the world, who released the first image of Sgr A* at press conferences worldwide in 2022. Despite their differences in size and mass, both black holes show similarities, indicating that strong magnetic fields may be common to all black holes. This finding suggests that there may be a hidden jet present in Sgr A*.

Scientists have studied Sgr A* using polarized light to further investigate these similarities and discovered the presence of strong magnetic fields spiraling near the black hole. Observing black holes with polarized light is challenging due to their quick changes, making it difficult to capture detailed photos. To observe Sgr A* in 2017, researchers used sophisticated tools and a global network of telescopes to create a virtual Earth-sized telescope, known as EHT.

This study highlights that both black holes have strong magnetic fields, suggesting this may be a fundamental characteristic of these enigmatic cosmic objects. While scientists have not yet found a visible jet at Sgr A*, they believe that one might exist based on its similarity to M87’s magnetic field structure. This research contributes significantly to our understanding of the magnetic fields and structures around black holes, providing valuable insights into their nature.

In conclusion, this discovery made by scientists working with EHT has revolutionized our understanding of supermassive black holes like Sagittarius A*. The study provides valuable insights into how these cosmic objects interact with their surroundings and contributes significantly to our knowledge about them.

The discovery was published in The Astrophysical Journal Letters and marks an important milestone for astrophysicists studying these mysterious phenomena. The collaboration involved hundreds of researchers from around the world who worked tirelessly for years to make this breakthrough possible.

Overall, this discovery marks an exciting moment for astrophysicists studying supermassive black holes like Sagittarius A*. It provides new insights into how these cosmic objects interact with their surroundings and opens up new avenues for future research.

By Riley Johnson

As a content writer at, I dive into the depths of information to craft compelling stories that captivate and inform readers. With a keen eye for detail and a passion for storytelling, I strive to create engaging content that resonates with our audience. Whether it's breaking news, in-depth features, or thought-provoking opinion pieces, I am dedicated to delivering high-quality, informative content that keeps readers coming back for more. My goal is to bring a fresh perspective to every article I write and to make a meaningful impact through the power of words.

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