Scientists discover ‘dramatic flares, bursts from mysterious pulsar’
October 15th, 2010 - 1:55 pm ICT by ANIWashington, Oct 15 (ANI): Scientists have discovered dramatic flares and bursts of energy emanating from a weakly magnetised, slowly rotating pulsar.
The international team of astrophysicists who made the discovery believes that the source of the pulsar’s power may be hidden deep within its surface.
Pulsars, or neutron stars, are the collapsed remains of massive stars. Although they are on average only about 30km in diameter, they have hugely powerful surface magnetic fields, billions of times that of our Sun.
The most extreme kinds of pulsars have a surface magnetic field 50-1000 times stronger than normal and emit powerful flares of gamma rays and X-rays. Named magnetars (which stands for “magnetic stars”) by astronomers, their huge magnetic fields are thought to be the ultimate source of power for the bursts of gamma rays.
Theoretical studies indicate that in magnetars the internal field is actually stronger than the surface field, a property that can deform the crust and propagate outwards. The decay of the magnetic field leads to the production of steady and bursting X-ray emission through the heating of the neutron star crust or the acceleration of particles.
Now the research suggests that the same power source can also work for weaker, non-magnetar, pulsars. The observations, which were made by NASA’s Chandra and Swift X-ray observatories of the neutron star SGR 0418, may indicate the presence of a huge internal magnetic field in these seemingly less powerful pulsars, which is not matched by their surface magnetic field.
“We have now discovered bursts and flares, i.e. magnetar-like activity, from a new pulsar whose magnetic field is very low,” said Dr Silvia Zane, from UCL’s (University College London) Mullard Space Science Laboratory.
The research has been published in Science. (ANI)
- Gamma-ray bursts powered by strongest magnetic fields in universe - Nov 04, 2010
- Supernova remnant erupts in enormous flares - May 12, 2011
- Enormous eruption reveals dead star in deep space - Jun 17, 2009
- Eclipsed pulsar could be key to understanding compressed space matter - Aug 18, 2010
- NASA''s satellites probe fireworks from a flaring gamma-ray star - Feb 11, 2009
- 'Satnav' could pave man's way beyond solar system - Mar 29, 2012
- XMM-Newton measures speedy spin of rare celestial object - Jan 14, 2009
- Scientists discover how magnetic stars produce X-rays - Nov 15, 2008
- Supercomputer solves gamma-ray burst mystery - Apr 08, 2011
- Crab nebula is slowly dimming: Scientists - Jan 14, 2011
- New levels of complexity and intrigue revealed in Milky Way's center - Sep 23, 2009
- Space observatory briefly blinded by record-breaking x-ray blast - Jul 15, 2010
- Neutron star might be changing into another star - Feb 21, 2008
- Astromers capture rare flaring black hole - Sep 21, 2011
- NASA's Chandra X-ray Observatory finds youngest nearby black hole - Nov 16, 2010
Tags: astrophysicists, gamma rays, internal magnetic field, magnetar, magnetars, magnetic stars, massive stars, mullard space science, mullard space science laboratory, neutron star, neutron stars, pulsars, ray emission, s chandra, s university, space science laboratory, theoretical studies, university college london, x ray, x rays