Sentences with phrase «as a neutron star»
The r - process goes something like this: As neutron stars move toward each other, a tiny bit of their material gets shot into space at incredible speeds.
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One is a cataclysmic event, such as a neutron star collapsing into a black hole.
Those with a mass between 10 and 29 times that of our Sun tend to turn into a small, dense objects known as neutron stars.
One is that they are caused by a cataclysmic event, such as a neutron star collapsing into a black hole or supernova.
A long - standing goal of the LIGO project has been the development of multi-messenger astronomy — the near - simultaneous observation of cataclysmic events such as neutron star mergers or supernova explosions in both gravitational waves and light, providing details about the astrophysics of these phenomena that can't be revealed through either alone.
To better understand how the magnetic field changes as a neutron star ages, Gourgouliatos and Cumming ran a series of computer simulations.
He'd like to see additional observations in the X-ray range, as neutron stars generally shine more much powerfully at these wavelengths.
As the neutron stars spiraled into each other, gravitational - wave detectors in the United States and Italy sensed ripples in space generated by the whirling bodies.
Three such ULXs have been identified as neutron stars so far.
As the neutron star shrinks, it spins even faster, eventually causing small fragments to detach and fly off.
As a neutron star spins, its polar fountains turn with it, like an interstellar lighthouse beam.
Astronomers generally classify the compact object in an X-ray binary as a neutron star unless its calculated mass exceeds three solar masses.
RAMIREZ - RUIZ: As these neutron stars come together, the stars eject some material in their tidal tails into space at very close to the speed of light.
«Therefore compact objects such as neutron stars are strongly favored by this result.»
Black hole coalescences aren't expected to generate light that could be spotted by telescopes, but another prime candidate could: a smashup between two remnants of stars known as neutron stars.
Alex and Anna's observations are so unbelievably useful because they really show that the phenomenon which created these elements is something rare, but that produces a lot of these elements, as a neutron star merger should.
So, too, do astrophysical exotica such as neutron stars and white dwarfs — the remnants left by normal stars when they die.
The researchers ruled out other objects emitting X-rays, such as neutron stars and white dwarfs, but acknowledged that up to half of the sources they found could be fast - spinning stellar corpses called millisecond pulsars rather than black holes.
Doing so would make it possible to detect gravitational waves, faint ripples in space - time that, according to Einstein, emanate from interactions between massive objects such as neutron stars and supermassive black holes.
The Compton Gamma Ray Observatory (CGRO), designed to detect gamma rays from distant astrophysical objects such as neutron stars and supernova remnants, had also begun recording bright, millisecond - long bursts of gamma rays coming not from outer space but from Earth below.
The realization could lead to new insights into superconductivity and exotic astrophysical objects such as neutron stars.
Theories of stellar evolution predict that stars weighing less than about 25 times the mass of the sun end up as neutron stars, while heftier stars are destined to become black holes.
Such particles could eventually enable astrophysicists to infer properties such as a neutron star's size and the strength of its gravity at its surface.
A rapidly rotating but unseen companion star — one that collapsed as a neutron star or black hole at the time of the supernova — could have produced these jets.
But as the neutron stars «feed» on the matter, there comes a time when the resulting X-ray light pushes the matter away.
Cosmic jets, most astronomers believe, arise when a massive object, such as a neutron star or a black hole, draws in material.
As neutron stars are composed mainly of neutrons, and neutrons are a key component (along with protons) of atomic nuclei, there were suddenly a LOT of subatomic building blocks flying around immediately after the neutron star smashup.
Astrophysical sources of gamma rays include powerful objects such as neutron stars, supernovae, and supermassive black holes.
Once the dust clears, the only thing remaining will be a very dense star known as a neutron star, these can often be rapidly spinning and are known as pulsars.
These explosions are thought to leave a compact remnant, such as a neutron star.