Researchers at the University of Southampton have discovered that the unique 'Bursting Pulsar' - a neutron star which steals matter from a low-mass stellar neighbour - may also be the slowest known 'transitional pulsar' in existence.

Transitional pulsars are a rare class of neutron stars, which alternate between showing X-ray and radio pulsations over timescales of years.

Jamie Court, postgraduate researcher in Astronomy at Southampton, has also found for the first time ever that the Bursting Pulsar (GRO J1744-28) has a tendency to 'hiccup' as it strips matter from a nearby giant star onto its surface. The observations feature in a new paper published in the Monthly Notices of the Royal Astronomical Society: Letters co-authored by Court with Southampton Principal Research Fellow, Dr Diego Altamirano and Dr Andrea Sanna at the University of Cagliari in Italy.

Using archived data from NASA's orbiting RXTE observatory, which fell back to Earth on April 30, Court and his colleagues have discovered that this object may also be the slowest known 'transitional pulsar' with a magnetic field 100 times stronger than any other.

"In a transitional pulsar system, a neutron star pulls matter off of a nearby sun-like star onto its surface," he explains.

"This colossal river of star matter spins up the neutron star like an engine, leading to this city-sized object with twice the mass of the sun spinning hundreds of times per second. Friction forces in this stream also heat it up to millions of degrees; causing it to glow brightly in X-rays which we can see from the Earth."

This flow of matter can't last forever and, as the neutron star's companion is slowly stripped away, the flow does not end neatly.

"It is now believed that, in neutron stars near the end of this process, this flow can sometimes switch on and off, causing the X-rays to slowly sputter out like a dying engine," Court continues.

"Even when the flow is present, it stops being smooth; a constantly shifting fight between the infalling gas and the magnetic field causes matter instead to be swallowed in discrete 'gulps' or 'hiccups'. These 'hiccups' are the tell-tale signs that we have discovered in the neutron star known as the 'Bursting Pulsar'.

"But the Bursting Pulsar is unusual in a number of ways," Court adds.

"The neutron star only spins about twice a second; while this may seem fast for something 20km across, this is about 100 times slower than the other transitional pulsars discovered so far, suggesting that the matter-flow engine somehow failed to spin the neutron star up as much as it should have. This in turn suggests that there is still much we do not understand about how these incredibly dense stars evolve over time.

"In addition to this, the neutron star in this system has an incredibly strong magnetic field; more than 100 billion times that of the Earth, and 100 times as strong as any other known transitional pulsar," he concludes.

"This exciting discovery will allow us to explore the messy physics of these cosmic hiccups in a more extreme environment than ever before. It shows that, even 6 years after being decommissioned, the RXTE satellite is still helping us to do great new science!"

Research Report: The Bursting Pulsar GRO J1744-28: the Slowest Transitional Pulsar

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University of Southampton
Stellar Chemistry, The Universe And All Within It

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