NASA'S Swift Reveals New Phenomenon in a Neutron Star

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May 29,2013

J. D. Harrington 
Headquarters, Washington      
202-358-5241      
j.d.harrington@xxxxxxxx 

Lynn Chandler 
Goddard Space Flight Center, Greenbelt, Md. 
301-286-2806 
lynn.chandler-1@xxxxxxxx 


RELEASE: 13-156

NASA'S SWIFT REVEALS NEW PHENOMENON IN A NEUTRON STAR

WASHINGTON -- Astronomers using NASA's Swift X-ray Telescope have 
observed a spinning neutron star suddenly slowing down, yielding 
clues they can use to understand these extremely dense objects. 

A neutron star is the crushed core of a massive star that ran out of 
fuel, collapsed under its own weight, and exploded as a supernova. A 
neutron star can spin as fast as 43,000 times per minute and boast a 
magnetic field a trillion times stronger than Earth's. Matter within 
a neutron star is so dense a teaspoonful would weigh about a billion 
tons on Earth. 

This neutron star, 1E 2259+586, is located about 10,000 light-years 
away toward the constellation Cassiopeia. It is one of about two 
dozen neutron stars called magnetars, which have very powerful 
magnetic fields and occasionally produce high-energy explosions or 
pulses. 

Observations of X-ray pulses from 1E 2259+586 from July 2011 through 
mid-April 2012 indicated the magnetar's rotation was gradually 
slowing from once every seven seconds, or about eight revolutions per 
minute. On April 28, 2012, data showed the spin rate had decreased 
abruptly, by 2.2 millionths of a second, and the magnetar was 
spinning down at a faster rate. 

"Astronomers have witnessed hundreds of events, called glitches, 
associated with sudden increases in the spin of neutron stars, but 
this sudden spin-down caught us off guard," said Victoria Kaspi, a 
professor of physics at McGill University in Montreal. She leads a 
team that uses Swift to monitor magnetars routinely. 

Astronomers dubbed the event an "anti-glitch," said co-author Neil 
Gehrels, principal investigator of the Swift mission at NASA's 
Goddard Space Flight Center in Greenbelt, Md. "It affected the 
magnetar in exactly the opposite manner of every other clearly 
identified glitch seen in neutron stars." 

The discovery has important implications for understanding the extreme 
physical conditions present within neutron stars, where matter 
becomes squeezed to densities several times greater than an atomic 
nucleus. No laboratory on Earth can duplicate these conditions. 
A report on the findings appears in the May 30 edition of the journal 
Nature. 

The internal structure of neutron stars is a long-standing puzzle. 
Current theory maintains a neutron star has a crust made up of 
electrons and ions; an interior containing oddities that include a 
neutron superfluid, which is a bizarre state of matter without 
friction; and a surface that accelerates streams of high-energy 
particles through the star's intense magnetic field. 

The streaming particles drain energy from the crust. The crust spins 
down, but the fluid interior resists being slowed. The crust 
fractures under the strain. When this happens, a glitch occurs. There 
is an X-ray outburst and the star gets a speedup kick from the 
faster-spinning interior. 
Processes that lead to a sudden rotational slowdown constitute a new 
theoretical challenge. 

On April 21, 2012, just a week before Swift observed the anti-glitch, 
1E 2259+586 produced a brief, but intense X-ray burst detected by the 
Gamma-ray Burst Monitor aboard NASA's Fermi Gamma-ray Space 
Telescope. The scientists think this 36-millisecond eruption of 
high-energy light likely signaled the changes that drove the 
magnetar's slowdown. 

"What is really remarkable about this event is the combination of the 
magnetar's abrupt slowdown, the X-ray outburst, and the fact we now 
observe the star spinning down at a faster rate than before," said 
lead author Robert Archibald, a graduate student at McGill. 

Goddard manages Swift, which was launched in November 2004. The 
telescope is operated in collaboration with Pennsylvania State 
University in University Park, Pa., the Los Alamos National 
Laboratory in New Mexico and Orbital Sciences Corp. in Dulles, Va. 
International collaborators are in the United Kingdom and Italy, and 
the mission includes contributions from Germany and Japan. 

For images related to this release, please visit: 

http://www.nasa.gov/mission_pages/swift/bursts/new-phenom.html 

For more information about Swift, visit: 

http://www.nasa.gov/swift 

	
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