Supernova eruption in a nearby galaxy

sky watch A supernova from M82 galaxy explodes so brightly that it can be seen witha modest telescope, says Lucas Laursen

Light from a supernova explosion has reached astronomers on Earth. Its origin: the nearby galaxy M82, some 3.5 megaparsecs away (11.4 million light years). It is one of the closest and brightest supernovae seen from Earth since the 1987 observation of a supernova just 1,68,000 light years away. Astronomers say that the latest supernova is of the type Ia class, and may help reveal how such supernovae form. Moreover, because these supernovae are used to calibrate distances in space, understanding them better may help clarify the shape of the Universe.

Star sighting

The supernova was bright enough to be discovered with a modest telescope in an unlikely spot: cloudy north London. On Jan. 21, early in the evening, Steve Fossey, an astronomer at University College London, was taking students through a routine lesson with a 35-centimeter telescope at the University of London Observatory. Images of M82, also known as the Cigar Galaxy, appeared on their screens. Fossey noticed something unusual: a star sitting on the edge of the galaxy disc. It did not match Fossey’s memory of the galaxy, or images they looked up on the Internet. “It kind of looked odd,” he says.

As the sky grew cloudy, Fossey’s students checked their telescope for instrumental errors, and also confirmed that the object was not an asteroid. Fossey fired up another small telescope at the observatory and confirmed the object’s location before clouds closed in at 7:45 p.m.. Then he emailed colleagues at California Institute of Technology in Pasadena.

There, Yi Cao took up the baton. Cao, a graduate student in astronomy, sought a spectrum for the object - crucial for confirming the object as a supernova and discerning its type. He quickly arranged to begin observations with a 3.5-meter spectrograph-equipped telescope in New Mexico. Soon Cao dashed off a note to the Astronomer’s Telegram, a notification service. He reported that the spectrum matched that of a type Ia supernova, and that it may brighten for another two weeks.

By then, it may be visible through binoculars. In the meantime, astronomers have been emailing, calling and tweeting about the supernova in an effort to marshal observing resources. “I came into work this morning and the phones were ringing,” says Brant Robertson, an astronomer at the University of Arizona in Tucson. “It’s a lot of fun.”

It is also a rare and up-close look at a type Ia supernova, which seem to explode with a predictable brightness, suggesting a common origin. The 1987 supernova was in a different category, type II - explosions thought to result from the collapsing cores of giant stars. A type Ia supernova is thought to form when stellar material piles onto a white dwarf — an old dim star that has already shed excess mass — and passes a critical threshold, igniting a thermonuclear explosion. Some astronomers say that the extra material may come not from a normal or large star, but rather from the merger of two white dwarfs. Regardless, astronomers agree that type Ia explosions are found most often among old white dwarfs. Robertson says that is why it is somewhat surprising to find the supernova within M82, famous among astronomers for being a young, star-forming region.

Analysing the process

Astronomers around the world will now monitor the precise way in which the supernova brightens. They have relied on the consistency of type Ia supernovae brightness to make very accurate distance measurements. These cosmic yardsticks, which astronomers call “standard candles,” were crucial in the discovery of dark energy, the mysterious force that is accelerating the expansion of the Universe.

M82’s proximity means that there are many existing images of it, pre-explosion, including some from the Hubble Space Telescope. Cao and others will comb through those images, looking for what lay in the region before. It will not be easy: M82 is filled with dust. But the light the supernova shines on the dust could teach astronomers something about the host galaxy, too. 

One team is already looking for radioactive elements, such as nickel, that theories predict form in such supernova, says Shri Kulkarni, an astronomer at California Institute of Technology. “Dust has its own charms.”

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