Double star system flipping between two alter egos

Researchers noticed that a stellar duo behaved like one type of object before switching its identity, and then returning to its original state after a few years.This is a rare example of a star system changing its behavior in this way.


ANI | Washington DC | Updated: 21-02-2020 08:37 IST | Created: 21-02-2020 08:32 IST
Double star system flipping between two alter egos
Representative Image . Image Credit: ANI
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Researchers noticed that a stellar duo behaved like one type of object before switching its identity, and then returning to its original state after a few years.This is a rare example of a star system changing its behavior in this way. Using nearly a decade and a half worth of Chandra data,it was found that a double star system has been flipping between two alter egos, according to observations with NASA's Chandra X-ray Observatory and the National Science Foundation's Karl F. Jansky Very Large Array (VLA).

To confirm this pattern of 'Jekyll and Hyde' behaviour, astronomers need to detect radio pulses while Terzan 5 CX1 is faint in X-rays. This stellar duo, known as Terzan 5 CX1, has a neutron star (the extremely dense remnant left behind by a supernova explosion) in close orbit around a star similar to the Sun, but with less mass.

Astronomers found this volatile double, or binary, system in a dense collection of stars, the globular cluster Terzan 5, which is located about 20,000 light-years from Earth in the Milky Way galaxy. The study of the "Jekyll and Hyde" binary was led by Arash Bahramian of the International Centre for Radio Astronomy Research (ICRAR), Australia, and was published in the September 1st, 2018 issue of The Astrophysical Journal.

In the new image obtained of Terzan 5 (right), low, medium and high-energy X-rays detected by Chandra are coloured red, green and blue respectively. On the left, an image from the Hubble Space Telescope shows the same field of view in optical light. Terzan 5 CX1 is labelled as CX1 in the Chandra image. In binary systems like Terzan 5 CX1, the heavier neutron star pulls material from the lower-mass companion into a surrounding disk. Astronomers can detect these so-called accretion disks by their bright X-ray light, and refer to these objects as "low-mass X-ray binaries."

Spinning material in the disk falls onto the surface of the neutron star, increasing its rotation rate. The neutron star can spin faster and faster until the roughly 10-mile-wide sphere, packed with more mass than the Sun, is rotating hundreds of times per second. Eventually, the transfer of matter slows down and the remaining material is swept away by the whirling magnetic field of the neutron star, which becomes a millisecond pulsar. Astronomers detect pulses of radio waves from these millisecond pulsars as the neutron star's beam of radio emission sweeps over the Earth during each rotation.

While scientists expect the complete evolution of a low-mass X-ray binary into a millisecond pulsar should happen over several billion years, there is a period of time when the system can switch rapidly between these two states. Chandra observations of Terzan 5 CX1 showed that it was acting like a low-mass X-ray binary in 2003 because it was brighter in X-rays than any of the dozens of other sources in the globular cluster. This was a sign that the neutron star was likely accumulating matter.

Chandra data taken from 2009 to 2014, Terzan 5 CX1 had become about ten times fainter in X-rays. Astronomers also detected it as a radio source with the VLA in 2012 and 2014. The amount of radio and X-ray emission and the corresponding spectra agree with expectations for a millisecond pulsar. Although the radio data used did not allow a search for millisecond pulses, these results imply that Terzan 5 CX1 underwent a transformation into behaving like a millisecond pulsar and was blowing material outwards. By the time Chandra had observed Terzan 5 CX1 again in 2016, it had become brighter in X-rays and changed back to acting like a low-mass X-ray binary again.

More radio and X-ray observations are planned to search for this behaviour, along with sensitive searches for pulses in existing data.(ANI)

(This story has not been edited by Devdiscourse staff and is auto-generated from a syndicated feed.)

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