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Related: About this forumNASA's Fermi finds a 'transformer' pulsar
These artist's renderings show one model of pulsar J1023 before (top) and after (bottom) its radio beacon (green) vanished. Normally, the pulsar's wind staves off the companion's gas stream. When the stream surges, an accretion disk forms and gamma-ray particle jets (magenta) obscure the radio beam.
In late June 2013, an exceptional binary containing a rapidly spinning neutron star underwent a dramatic change in behavior never before observed. The pulsar's radio beacon vanished, while at the same time the system brightened fivefold in gamma rays, the most powerful form of light, according to measurements by NASA's Fermi Gamma-ray Space Telescope.
"It's almost as if someone flipped a switch, morphing the system from a lower-energy state to a higher-energy one," said Benjamin Stappers, an astrophysicist at the University of Manchester, England, who led an international effort to understand this striking transformation. "The change appears to reflect an erratic interaction between the pulsar and its companion, one that allows us an opportunity to explore a rare transitional phase in the life of this binary."
A binary consists of two stars orbiting around their common center of mass. This system, known as AY Sextantis, is located about 4,400 light-years away in the constellation Sextans. It pairs a 1.7-millisecond pulsar named PSR J1023+0038 -- J1023 for short -- with a star containing about one-fifth the mass of the sun. The stars complete an orbit in only 4.8 hours, which places them so close together that the pulsar will gradually evaporate its companion.
When a massive star collapses and explodes as a supernova, its crushed core may survive as a compact remnant called a neutron star or pulsar, an object squeezing more mass than the sun's into a sphere no larger than Washington, D.C. Young isolated neutron stars rotate tens of times each second and generate beams of radio, visible light, X-rays and gamma rays that astronomers observe as pulses whenever the beams sweep past Earth. Pulsars also generate powerful outflows, or "winds," of high-energy particles moving near the speed of light. The power for all this comes from the pulsar's rapidly spinning magnetic field, and over time, as the pulsars wind down, these emissions fade.
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http://www.sciencedaily.com/releases/2014/07/140722120452.htm
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NASA's Fermi finds a 'transformer' pulsar (Original Post)
n2doc
Jul 2014
OP
Dr Hobbitstein
(6,568 posts)1. It's almost like
there's more than meets the eye...
cantbeserious
(13,039 posts)2. Amazing
eom
Ichingcarpenter
(36,988 posts)3. a Type II civilization Wink wink. Say no more".
can harness the power of their entire star (not merely transforming starlight into energy, but controlling the star).
http://www.fromquarkstoquasars.com/the-kardashev-scale-type-i-ii-iii-iv-v-civilization/
BadgerKid
(4,553 posts)4. We can't even do space based solar power (yet).
Maybe SpaceX will give us the means.