Sentences with phrase «magnetar fields»
Magnetar fields reach strengths a thousand times stronger still, and scientists don't know the details of how they are created.
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Magnetars are highly - dense stars with powerful magnetic fields.
If magnetic monopoles had relatively small masses, the particles would sap the strength of magnetars» magnetic fields.
Some, for reasons that are not totally understood, fall under the classification of «magnetars,» which take the already - astounding field of an ordinary neutron star and multiply it by about 1,000 times.
Later on in life, it looks like the magnetars we see in our galaxy, which have extremely strong magnetic fields but rotate more like ordinary pulsars.»
The rapid rotation created by mass transfer between the two stars appears necessary to generate the ultra-strong magnetic field and then a second mass transfer phase allows the magnetar - to - be to slim down sufficiently so that it does not collapse into a black hole at the moment of its death.
This rapid rotation appears to be the essential ingredient in the formation of the magnetar's ultra-strong magnetic field.
Magnetars have the mass of the sun packed into a star the size of a city and have magnetic fields a hundred trillion times that of Earth.
Just like magnetars, the silent pulsars rotate rather slowly, and they seem to have strong magnetic fields too.
Like all magnetars, CXOU J164710.2 - 455216 is a rare kind of neutron star that for as - yet - unexplained reasons possesses the most powerful magnetic field in the universe.
Magnetars have the mass of the sun packed into a star the size of a city and have magnetic fields a hundred trillion times that of the Earth.
If the young - magnetar theory is correct, then — according to one possible version of the story — we have to envisage a newborn, superdense neutron star cloaked in a powerful and highly unstable magnetic field.
As the repeater narrowed down the options, Scholz took a stab at guessing the source: «Extragalactic magnetar» he wrote in his initial email, referring to a young neutron star with an extremely powerful magnetic field.
As the newborn magnetar's magnetic field changes and reconfigures and reconnects, it pumps energy into the surrounding gas and dust cloud.
Their low metallicity allows these tiny galaxies to produce more massive stars, and, probably because massive stars have stronger magnetic fields, their explosive deaths can leave behind highly magnetized neutron stars, or magnetars.
New data from these powerful telescopes later confirmed that 1E 1613 has the properties of a magnetar — a type of neutron star with an extremely powerful magnetic field — making it only the 30th known one.
They found it by observing a long - sought, short - lived afterglow of subatomic particles ejected from a magnetar — a neutron star with a magnetic field billions of times stronger than any on Earth and 100 times stronger than any other previously known in the Universe.
A magnetar is a neutron star with an extremely strong magnetic field, strong enough to rip atoms apart.
This superstrong magnetic field produces effects that distinguish magnetars from other neutron stars.
In the units used by physicists, the strength of a magnetar's magnetic field is about a million billion Gauss; a refrigerator magnet has a field of about 100 Gauss.
In a magnetar's field, you just kind of... dissolve.