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Long-anticipated eruption of U Scorpii has begun

Observers around the planet will be observing this remarkable system intensely for the next few months.
Provided by Universe Today
Nova RS Oph
Artists rendition of the recurrent nova RS Oph.
David Hardy/PPARC
Today, two amateur astronomers from Florida detected a rare outburst of the recurrent nova U Scorpii, which set in motion satellite observations by the Hubble Space Telescope, Swift, and Spitzer. The last outburst of U Scorpii occurred February 1999. Observers around the planet will be observing this remarkable system intensely for the next few months trying to unlock the mysteries of white dwarfs, interacting binaries, accretion, and the progenitors of type Ia supernovae.

One of the remarkable things about this outburst is it was predicted in advance by Bradley Schaefer, of Louisiana State University, so observers of the American Association of Variable Star Observers (AAVSO) have been closely monitoring the star since last February, waiting to detect the first signs of an eruption. This morning, AAVSO observers Barbara Harris and Shawn Dvorak sent in notification of the outburst, sending astronomers scrambling to get "target of opportunity observations" from satellites and continuous coverage from ground-based observatories. Time is a critical element because U Scorpii is known to reach maximum light and start to fade again in one day.

There are only 10 known recurrent novae (RNe). This, coupled with the fact that eruptions may occur only once every 10 to 100 years, makes observations of this rare phenomenon extremely interesting to astronomers. Recurrent novae are close binary stars where matter is accreting from the secondary star onto the surface of a white dwarf primary. Eventually, this material accumulates enough to ignite a thermonuclear explosion that makes the nova eruption. Classical novae are systems where only one such eruption has occurred in recorded history. They may have recurrent eruptions, but these may occur thousands or millions of years apart. RNe have recurrence times of 10 to 100 years.

The difference is thought to be the mass of the white dwarf. The white dwarf must be close to the Chandrasekhar limit, 1.4 times the mass of the Sun. This higher mass makes for a higher surface gravity that allows a relatively small amount of matter to reach the ignition point for a thermonuclear runaway. White dwarfs in RNe are thought to be roughly 1.2 times solar or greater. The rate at which mass is accreted onto the white dwarf must be relatively high also. This is the only way to get enough material accumulated onto the white dwarf in such a short time, as compared to classical novae.

Recurrent novae are of particular interest to scientists because they may represent a stage in the evolution of close binary systems on their way to becoming type Ia supernovae. As mass builds up on the white dwarf, they may eventually reach the tipping point, the Chandrasekhar limit. Once a white dwarf exceeds this mass, it will collapse into a type Ia supernova.

A problem with this theory is the mass that is blown off the white dwarf in the eruption. If more mass is ejected during an eruption than has accreted during the previous interval between eruptions, the white dwarf will not be gaining mass and will not collapse into a type Ia supernova. Therefore, scientists are eager to obtain all the data they can on these eruptions to determine what is happening with the white dwarf, the mass that is ejected, and the rate of accretion.

The AAVSO is requesting observations from amateur astronomers. Data from backyard telescopes will be combined with data from mountaintop observatories and space telescopes to help unravel the secrets of these rare systems. AAVSO finder charts with comparison star sequences are available at: http://www.aavso.org/observing/charts/vsp/index.html?pickname=U%20Sco

This story has been provided by Universe Today.
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