International Space Agencies – Missions and Discoveries

Repeating radio signal detected from nearby Exoplanet YZ Ceti b

Note4Students

From UPSC perspective, the following things are important :

Prelims level: YZ Ceti exoplanet , Exoplanets

Mains level: NA

ceti

Central idea: Astronomers have detected a repeating radio signal from the YZ Ceti exoplanet that suggests the presence of a magnetic field around it.

What is YZ Ceti b?

  • YZ Ceti b is an earth-sized exoplanet (a planet that orbits a star other than our sun).
  • It is located barely 12 light-years from Earth, and it rotates around a small red dwarf star called YZ Ceti.

How was the discovery made?

  • The researchers had to make multiple rounds of observations before they could detect the radio signals from the star YZ Ceti, which seemed to match the orbital period of the planet YZ Ceti b.
  • From this, they deduced that the signals were a result of the interaction between the planet’s magnetic field and the star.

Why does the magnetic field matter?

  • Intense bursts of energy from the YZ Ceti star-exoplanet exchange produce spectacular auroral lights, similar to the energy surges from the sun that disrupt telecommunications on earth.
  • The radio waves confirmed the existence of an exoplanetary magnetic field.
  • This can only be produced if the exoplanet orbits very close to its parent star and has its own magnetic field to influence the stellar wind and generate the signals.

What’s the implication for YZ Ceti b?

  • The small orbit of YZ Ceti b indicates that the planet takes just a couple of earth days to circle its star.
  • Nearly half of all the stars visible in the sky could potentially harbor rocky, earth-sized planets in habitable orbits around them.
  • Astronomers indicated that the possibility of the existence of a magnetic field on the Earth-like exoplanet, called YZ Ceti b, probably hints at the habitability of life on that planet.

How common are such magnetic fields?

  • Planetary scientists have never been able to identify magnetic fields on smaller, rocky exoplanets until now.
  • The survival of a planet’s atmosphere may depend on its having, or not having, a strong magnetic field, since the field protects its atmosphere from being eroded by the charged particles blowing in from its star.

 

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