A team of astronomers¹, including Carnegie's Benjamin Shappee, Nidia Morrell, and Ian Thompson, has discovered the most-luminous² supernova ever observed, called ASAS-SN-15lh. Their findings are published in Science. Supernovae are violent stellar explosions and some of the brightest objects in the universe. Human records noting their existence date back nearly 2,000 years. Within the past two decades a rare new category of super-luminous supernovae have been discovered, which shine one hundred to a thousand times brighter than the more-common supernovae. It has been theorized that these super-luminous supernovae are powered by so-called magnetars, neutron³ stars with extremely powerful magnetic fields, with the magnetism⁴ providing the engine for the immense luminosity. According to this theory, the magnetic field's spin magnifies the energy of the explosion, increasing the luminosity. 

 

As counterintuitive as it may sound, super-luminous supernovae are difficult for astronomers to spot. This is because they are rare and tend to form in low-luminosity galaxies⁵ with vigorous star formation, whereas the sky surveys that have been traditionally used to locate supernovae target bright galaxies with low rates of star formation. 

 

The newly found super-luminous supernova was discovered by the All Sky Automated⁶ Survey for SuperNovae team (ASAS-SN), an international collaboration⁷ headquartered at the Ohio State University, which uses a network of 14-centimeter telescopes around the world to scan the visible sky every two or three nights looking for very bright supernovae. The only all-sky variability survey in existence, it is capable of finding normal supernovae out to about 350 million light years from Earth. 

 

"On June 14 of this year, we spotted⁸ a newly occurring explosion in a galaxy⁹ of an unknown distance," Shappee said. "Subsequent observations--including those made at our Las Campanas Observatory¹⁰ by Nidia Morrell and Ian Thompson--allowed the team to confirm the existence of the supernova ASAS-SN-15lh." 

 

The supernova's spectra¹¹ matched that of other hydrogen-poor super-luminous supernovae. But it wasn't until further follow-up was conducted that the study's lead author Subo Dong of the Kavli Institute for Astronomy and Astrophysics (KIAA) at Peking University and the rest of the team realized how unusual the supernova is. It is two times more luminous than any supernova previously¹² discovered. In fact, ASAS-SN-15lh at peak was almost 50 times more luminous than the entire Milky¹³ Way galaxy.

 

"When the first du Pont spectrum¹⁴ was available, as usual, I quickly checked what kind of supernova it was. To my surprise, I was not able to even tell for sure it was a supernova. My first reaction was: 'this is interesting, we should get more data,'" Morrell said. "It was only when we obtained higher resolution spectra from the Southern African Large Telescope and the Magellan Clay Telescope that I realized how distant the host galaxy is and consequently, how luminous the supernova."

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