Using the Dutch-led Low Frequency Array (LOFAR) radio telescope, astronomers have discovered unusual radio waves coming from the nearby red dwarf star GJ 1151. The radio waves bear the telltale signature of aurorae caused by an interaction between a star and its planet.

The radio emission from a star-planet interaction has been predicted for over 30 years, but this is the first time astronomers have been able to discern its signature. This method, only possible with a sensitive radio telescope like LOFAR, opens the door to a new way of discovering exoplanets in the habitable zone and studying the environment they exist in.

Red dwarfs are the most abundant type of star in our Milky Way, but much smaller and cooler than our own Sun. This means for a planet to be habitable, it has to be significantly closer to its star than the Earth is to the Sun.

Red dwarfs also have much stronger magnetic fields than the Sun, which means a habitable planet around a red dwarf is exposed to intense magnetic activity. This can heat the planet and even erode its atmosphere. The radio emissions associated with this process are one of the few tools available to gauge the potency of this effect.

"The motion of the planet through a red dwarf's strong magnetic field acts like an electric engine much in the same way a bicycle dynamo works. This generates a huge current that powers aurorae and radio emission on the star," says Dr. Harish Vedantham, the lead author of the study and a Netherlands Institute for Radio Astronomy (ASTRON) staff scientist.

Thanks to the Sun's weak magnetic field and the larger distance to the planets, similar currents are not generated in the solar system. However, the interaction of Jupiter's moon Io with Jupiter's magnetic field generates a similarly bright radio emission, even outshining the Sun at sufficiently low frequencies.

"We adapted the knowledge from decades of radio observations of Jupiter to the case of this star," said Dr. Joe Callingham, ASTRON postdoctoral fellow and co-author of the study. "A scaled up version of Jupiter-Io has long been predicted to exist in the form of a star-planet system, and the emission we observed fits the theory very well."

The group is now concentrating on finding similar emission from other stars. "We now know that nearly every red dwarf hosts terrestrial planets, so there must be other stars showing similar emission. We want to know how this impacts our search for another Earth around another star," says Dr. Callingham.

The team is using images from the ongoing survey of the northern sky called the LOFAR Two Metre Sky Survey (LoTSS) of which Dr. Tim Shimwell, ASTRON staff scientist and a co-author of the study, is the principal scientist.

"With LOFAR's sensitivity, we expect to find around 100 of such systems in the solar neighborhood. LOFAR will be the best game in town for such science until the Square Kilometre Array comes online," says Dr. Shimwell.

The group expects this new method of detecting exoplanets will open up a new way of understanding the environment of exoplanets. "The long-term aim is to determine what impact the star's magnetic activity has on an exoplanet's habitability, and radio emissions are a big piece of that puzzle," said Dr. Vedantham. "Our work has shown that this is viable with the new generation of radio telescopes, and put us on an exciting path."

Research Report: "Coherent Radio Emission from a Quiescent Red Dwarf Indicative of Star-Planet Interaction"

Related Links
The Netherlands Institute For Radio Astronomy
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