Researchers with NASA'a Space Telescope Science Institute (STSCI) in Baltimore, Maryland, measured the mass of a white dwarf star by analysing how much it bent the light of a more distant star, just as Einstein asserted could be done more than a century ago, Efe news reported.
The study was presented on Wednesday in Austin, Texas, at the 230th American Astronomical Society conference, where scientists from research centres and universities are discussing their latest discoveries.
Specifically, the team observed a white dwart star known as Stein 2051B located about 17 light years from the Earth just as it passed in front of a more distant star.
During the alignment, the gravity of the white dwarf bent the light from the farther star, thus making the latter appear to shift approximately two thousandths of an arc-second from its original position, a movement so small that it's equivalent to the size of an ant spotted from more than 2,400 km away.
By measuring the deflection of the more distant star's light, the astronomers calculated that the white dwarf star has about 68 percent of the Sun's mass, a result that coincides with theoretical predictions.
The method was proposed in 1915 when Einstein made public his General Theory of Relativity, which -- among other things -- described how objects deform space according to their mass.
The theory was verified experimentally four years later when a team headed by British astronomer Arthur Eddington measured how the Sun's gravity shifted the image of a distant star whose light just grazed the solar surface on its way to the Earth during a solar eclipse, thus proving that Einstein's microlensing idea was valid.
Astronomers nowadays use this effect to magnify images of distant galaxies and to measure small changes in the apparent positioning of nearby stars in the sky.
However, researchers had to wait for a century to build a telescope that was powerful enough to detect the gravitational lensing phenomenon caused by a single star outside the solar system.
The amount of deflection is so small that only the ultra-sharply focused Hubble telescope could detect it and the team had to wait for about two years before the two stars came into the proper alignment.
(This story has not been edited by Social News XYZ staff and is auto-generated from a syndicated feed.)
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