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Virtual Earth-space telescope reveals new details of Milky Way

The researchers were surprised when their Earth-space system revealed a temperature hotter then 10 trillion degrees.

Virtual Earth-space telescope reveals new details of Milky Way

New York:  Astronomers have created a virtual Earth-space radio telescope more than 100,000 miles across -- a super-high resolution that reveals new details of a quasar and our Milky Way.

The researchers were surprised when their Earth-space system revealed a temperature hotter then 10 trillion degrees.

“Only this space-Earth system could reveal this temperature, and now we have to figure out how that environment can reach such temperatures," said Yuri Kovalev, the RadioAstron project scientist.

“This result is a significant challenge to our current understanding of quasar jets,” he added.

Using an orbiting radio telescope in conjunction with four ground-based radio telescopes, the team achieved the highest resolution of any astronomical observation ever made.

The feat produced a pair of scientific surprises that promise to advance the understanding of quasars, supermassive black holes at the cores of galaxies.

The scientists combined the Russian RadioAstron satellite with the ground-based telescopes to produce a virtual radio telescope.

They pointed this system at a quasar called 3C 273, more than two billion light-years from Earth.

Quasars like 3C 273 propel huge jets of material outward at speeds nearly that of light. These powerful jets emit radio waves.

The observations also showed, for the first time, substructure caused by scattering of the radio waves by the tenuous interstellar material in our own Milky Way Galaxy.

“This is like looking through the hot, turbulent air above a candle flame,” added Michael Johnson from the Harvard-Smithsonian Center for Astrophysics.

“We had never been able to see such distortion of an extragalactic object before,” he noted in a paper appeared in Astrophysical Journal Letters.

The amazing resolution from RadioAstron working with the ground-based telescopes gives scientists a powerful new tool to explore not only the extreme physics near the distant supermassive black holes but also the diffuse material in our home galaxy.

The RadioAstron satellite was combined with the Green Bank Telescope in West Virginia, The Very Large Array in New Mexico, the Effelsberg Telescope in Germany, and the Arecibo Observatory in Puerto Rico.

Signals received by the orbiting radio telescope were transmitted to an antenna in Green Bank where they were recorded and then sent over the internet to Russia.

Here, they were combined with the data received by the ground-based radio telescopes to form the high resolution image of 3C 273.

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