Stellar Flare in Nearby Orion Nebula –“10 Billion Times More Powerful Than Sun’s”

 

Stellar Flare NASA

 

The flare was thought to be caused by a disruption in an intense magnetic field actively funneling material onto a young, growing star as it gains mass from its surroundings. The event occurred in one of the nearest star-forming regions to the Earth, the Orion Nebula. It lasted only a matter of hours.

The Hawaii-based James Clerk Maxwell Telescope (JCMT) discovered the stellar flare 10 billion times more powerful than the Sun’s solar flares –a history-making discovery that could unlock decades-old questions about the origin of our own Sun and planets, giving insight into how these celestial bodies were born.

“A discovery of this magnitude could have only happened in Hawaii,” said Dr. Steve Mairs, astronomer and lead investigator of the team that discovered the stellar flare. “Using the JCMT, we study the birth of nearby stars as a means of understanding the history of our very own solar system. Observing flares around the youngest stars is new territory and it is giving us key insights into the physical conditions of these systems. This is one of the ways we are working toward answering people’s most enduring questions about space, time, and the universe that surrounds us.”

Massive Black Hole Discovered Shaping the Orion Nebula Cluster

The JCMT Transient Survey team recorded the 1,500-year-old flare using the telescope’s state-of the art high-frequency radio technology and sophisticated image analysis techniques. Identified by astronomer Dr. Steve Mairs, the original data was obtained using the JCMT’s supercooled camera known as “SCUBA-2,” which is kept at a frigid -459.5 degrees Fahrenheit.

Located near the summit of Maunakea, the JCMT is the largest and only telescope in the northern hemisphere capable of making this type of discovery. The stellar flare observation was made as part of a monthly tracking program from researchers from around the world who use the JCMT to observe nearly 1,000 nearby stars in the earliest stages of their formation.

The Daily Galaxy via James Clerk Maxwell Telescope

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