In another extensive search for possible alien life, a team of researchers for the first time has collected a potential radio signal from a planet beyond our solar system.
In another extensive search for possible alien life, a team of scientists for the first time has collected a potential radio signal from a planet beyond our solar system.
The first possible radio signal is believed to be emanating from an exoplanet system about 51 light-years away.
The international team of researchers uncovered emission bursts from the Tau Bootes star-system hosting a so-called hot Jupiter. The team led by researchers from the Cornell University in the US used the Low Frequency Array (LOFAR), a radio telescope in the Netherlands, to uncover the emission bursts.
The researchers also observed other potential exoplanetary radio-emission candidates in the constellation Cancer and Upsilon Andromedae systems.
However, the study published in the journal Astronomy & Astrophysics found that only the Tau Bootes exoplanet system exhibited a significant radio signature, a unique potential window on the planet's magnetic field.
"We present one of the first hints of detecting an exoplanet in the radio realm," Cornell postdoctoral researcher Jake D Turner said.
"The signal is from the Tau Bootes system, which contains a binary star system and an exoplanet. We make the case for an emission by the planet itself," Jake D Turner said.
If confirmed through follow-up observations, this radio detection opens up a new window on exoplanets and provides a novel way to examine alien worlds that are tens of light-years away.
Observing an exoplanet's magnetic field helps astronomers decipher a planet's interior and atmospheric properties, as well as the physics of star-planet interactions, said Turner.
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