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The flare star WX UMa becomes 15 times brighter in less than three minutes

Scientists do not know how this flaring arises but have learned how it develops.
RELATED TOPICS: STARS
A flare star
A flare star. // Casey Reed/NASA
Astrophysicists at the University of Santiago de Compostela in Spain and the Byurakan Observatory in Armenia have detected a star of low luminosity that within a matter of moments gave off a flare so strong that it became almost 15 times brighter. The star in question is the flare star WX UMa.

“We recorded a strong flare of the star WX UMa, which became almost 15 times brighter in a matter of 160 seconds,” said Vakhtang Tamazian from the University of Santiago de Compostela.

This star is in the Ursa Major constellation, around 15.6 light-years from Earth, and it forms part of a binary system. Its companion shines almost 100 times brighter, except at times such as this in which the WX UMa gives off its flares. This can happen several times a year but not as strongly as that which was recorded now.

Tamazian and other researchers detected this exceptional brightness from the Byurakan Observatory in Armenia. “Furthermore, during this period of less than three minutes, the star underwent an abrupt change from spectral type M to B. In other words, it went from a temperature of 2,800 kelvin [4600° Fahrenheit or 2500° Celsius] to six or seven times more than that.”

Based on their spectral absorption lines, stars are classified using letters. Type M stars have a surface temperature of between 2,000 and 3,700 K; type B between 10,000 and 33,000 K.

WX UMa belongs to the limited group of “flare stars,” a class of variable stars that exhibit increases in brightness of up to 100 factors or more within a matter of seconds or minutes. These increases are sudden and irregular, practically random. They then return to their normal state within tens of minutes.

Scientists do not know how this flaring arises, but they know how it develops. “For some reason a small focus of instability arises within the plasma of the star, which causes turbulence in its magnetic field,” said Tamazian. “A magnetic reconnection then occurs, a conversion of energy from the magnetic field into kinetic energy, in order to recover the stability of the flow much like what happens in an electric discharge.”

Next, kinetic energy in the plasma transforms into thermal energy in the upper layers of the atmosphere and the star’s corona. This significant rise in the temperature and brightness of the star enables astronomers to detect changes in the radiation spectrum.

“Photometric and spectroscopic monitoring of this kind of flare stars is very relevant because it provides us with information about the changing states and physical processes, which are in turn key to studying the formation and evolution of stars,” Tamazian said.

Additionally, in cases of binary systems such as that which unites WX UMa with its companion, “Observation of flares acquires a special importance because we can investigate whether there is any relation between the frequency of flares and the position of the pair of stars on their orbit, a question which remains open.”

To carry out this study, flares in other binary systems (HU Del, CM Dra, and VW Com) have also been analyzed. The SCORPIO camera of the Byurakan Astrophysical Observatory was used. This camera enables both the spectrum and the brightness of these objects to be detected.

Flare stars are intrinsically weak and can therefore only be observed at relatively short distances in astronomic terms, specifically in the vicinity of the Sun, up to a distance of a few tens of light-years.
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