XMM-Newton observation of the core of the very massive cluster Cyg OB2
located in the constellation of Cygnus, 4700 light-years from Earth. The
cluster contains massive O-type stars that shine brightly in X-rays.
Cyg OB2 #9 is seen as the bright star just below the central star, and
in 2008 was determined to be a binary system. ESA’s XMM-Newton and
NASA’s Swift space telescopes have now found evidence for the winds of
these hot, massive stars colliding at the closest points of their
orbits, resulting in a four-fold increase in X-ray emission. Hundreds of
lower mass stars also fill the field of view, which spans nearly 22 x
16 arcminutes.
Credits: ESA/G. Rauw
Two massive stars racing in orbit around each other have had their
colliding stellar winds X-rayed for the first time, thanks to the
combined efforts of ESA’s XMM-Newton and NASA’s Swift space telescopes.
Stellar winds, pushed away from a massive star’s surface by its intense light, can have a profound influence on their environment.
Stellar winds, pushed away from a massive star’s surface by its intense light, can have a profound influence on their environment.
In some locations, they may trigger the collapse of surrounding clouds of gas and dust to form new stars.
In others, they may blast the clouds away before they have the chance to get started.
Now, XMM-Newton and Swift have found a ‘Rosetta stone’ for such winds in
a binary system known as Cyg OB2 #9, located in the Cygnus star-forming
region, where the winds from two massive stars orbiting around each
other collide at high speeds.
Cyg OB2 #9 remained a puzzle for many years. Its peculiar radio emission could only be explained if the object was not a single star but two, a hypothesis that was confirmed in 2008.
At the time of the discovery, however, there was no direct evidence for
the winds from the two stars colliding, even though the X-ray signature
of such a phenomenon was expected.
This signature could only be found by tracking the stars as they neared
the closest point on their 2.4-year orbit around each other, an
opportunity that presented itself between June and July 2011.
As the space telescopes looked on, the fierce stellar winds slammed
together at speeds of several million kilometres per hour, generating
hot plasma at a million degrees which then shone brightly in X-rays.
The telescopes recorded a four-fold increase in energy compared with the normal X-ray emission seen when the stars were further apart on their elliptical orbit.
The telescopes recorded a four-fold increase in energy compared with the normal X-ray emission seen when the stars were further apart on their elliptical orbit.
“This is the first time that we have found clear evidence for colliding
winds in this system,” says Yael Nazé of the Université de Liège,
Belgium, and lead author of the paper describing the results reported in
Astronomy & Astrophysics.
“We only have a few other examples of winds in binary systems crashing
together, but this one example can really be considered an archetype for
this phenomenon.”
Unlike the handful of other colliding wind systems, the style of the
collision in Cyg OB2 #9 remains the same throughout the stars’ orbit,
despite the increase in intensity as the two winds meet.
“In other examples the collision is turbulent; the winds of one star
might crash onto the other when they are at their closest, causing a
sudden drop in X-ray emission,” says Dr Nazé.
“But in the Cyg OB2 #9 system there is no such observation, so we can
consider it the first ‘simple’ example that has been discovered – that
really is the key to developing better models to help understand the
characteristics of these powerful stellar winds. ”
“This particular binary system represents an important stepping stone in
our understanding of stellar wind collisions and their associated
emissions, and could only be achieved by tracking the two stars orbiting
around each other with X-ray telescopes,” adds ESA’s XMM-Newton project
scientist Norbert Schartel.
Notes for Editors
Notes for Editors
ESA
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
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