Baffling radio signal coming from inside Milky Way Galaxy

Astronomers detect mysterious bursts of radio signals from distant galaxy; Photo: cbsnews

A mysterious intense blast of radio energy has been detected inside our own galaxy, astronomers have said in a new study published in the journal Nature.

The Independent reported that the detected signals are Fast Radio Bursts (FRBs) that last only a small fraction of a second, however, it can possess more than the sun itself. Despite the intensity of FRBs, their causal origin remains largely unknown.

In the new study, however, astronomers observed a fast radio burst in our own Milky Way Galaxy for the first time – which is closer than any FRBs that was previously detected and might help astronomers understand their origin.

Scientists have long struggled to uncover the origin of these intense blasts because they are so short, unpredictable and originate far away. But the consensus is they are formed within some of the most extreme conditions possible in our universe — with potential explanations ranging from dying stars to alien technology. 

The bursts of radio energy appear to have come from a magnetar, or a star with a very powerful magnetic field, the scientists who discovered the new FRBs said. 

“This great mystery as to what would produce these great outbursts of energy, which until now we’ve seen coming from halfway across the universe,” said Kiyoshi Masui, assistant professor of physics at MIT, who led the team’s analysis of the FRB’s brightness, adding: “This is the first time we’ve been able to tie one of these exotic fast radio bursts to a single astrophysical object.”

The detection began on 27 April when researchers using two space telescopes – multiple X-ray and gamma-ray emissions – coming from a magnetar at the other end of our galaxy. The next day, researchers used two North American telescopes to observe that patch of sky and picked up the blast that came to be known as FRB 200428.

Pragya Chawla, one of the co-authors on the study and a senior Ph.D. student in the Physics Department at McGill, said they calculated such an intense burst coming from another galaxy which would be indistinguishable from some fast radio bursts. “This really gives weight to the theory suggesting that magnetars could be behind at least some FRBs,” he added.FRBs were first discovered in 2007, immediately gave speculation on what could be able to cause such intense blasts of energy. The new study is the first to provide evidence linking the FRBs with magnetars. At the very least, that could be a valuable clue to the origin of at least some of those FRBs. Source: https://www.daily-bangladesh.com/
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China operates world's biggest radio telescope to discover 'laws of universe'

World's largest radio telescope has become operational in southwestern China, with officials in Beijing saying that the project will help scientists search for alien life.
Since the early 1930s, when the first primitive radio telescopes began operating in an attempt to hunt for alien radio signals, astronomers have been busy sifting through the data collected from the immensity of the space to detect the faintest radio signals transmitted from a supposed alien civilization and to help the mankind feel, at last, that its loneliness in the incomprehensible universe is finally eased. The latest of such scientific endeavors is the world’s biggest radio telescope made by Chinese scientists and unveiled on Sunday.
The Aperture Spherical Telescope (FAST), measuring 500 meters in diameter, is erected in a scenic karst valley in Pingtang county, a mountainous area in the southeastern province of Guizhou in China.
The gigantic telescope, which took five years and devoured some $180 million to complete, clearly demonstrates China's growing ambitions in outer space explorations and its vigorous pursuit of global scientific prestige. 
The new Chinese telescope, whose massive dish is made of 4,450 panels, dwarfs the half-a-century old Arecibo Observatory in Puerto Rico as the world's largest single-dish radio telescope, since its sensitivity is twice as the old pal with a reflector as big as 30 football fields. The speed of FAST in surveying is also five to 10 times more than that of the Arecibo Observatory.
The 500-meter Aperture Spherical Telescope (FAST) is seen at the final stage of construction, in the mountains in Pingtang county, Guizhou province, China. (Photo by Reuters)
“The ultimate goal of FAST is to discover the laws of the development of the universe,” said Qian Lei, an associate researcher with the National Astronomical Observatories of the Chinese Academy of Sciences, in remarks broadcast by state broadcaster CCTV on Sunday.
“In theory, if there is civilization in outer space, the radio signal it sends will be similar to the signal we can receive when a pulsar (spinning neutron star) is approaching us,” Qian added.
The huge Chinese cosmic ear requires a radio silence within a five-kilometer radius, therefore the 8,000 residents of the eight villages in the vicinity of the telescope site were forced to abandon their homes.
According to state media, the displaced villagers would be compensated, in the form of cash or new houses, from a budget of $269 million.
The CCTV report said that FAST managed to receive radio signals from a pulsar as far as 1,351 light years from the Earth during its recent test. Source: http://www.jokpeme.com
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