Japan Geoscience Union Meeting 2022

Presentation information

[E] Poster

P (Space and Planetary Sciences ) » P-AE Astronomy & Extrasolar Bodies

[P-AE17] Exoplanets

Fri. Jun 3, 2022 11:00 AM - 1:00 PM Online Poster Zoom Room (6) (Ch.06)

convener:Masahiro Ikoma(Division of Science, National Astronomical Observatory of Japan), convener:Norio Narita(The University of Tokyo), Yuka Fujii(National Astronomical Observatory of Japan), Chairperson:Masahiro Ikoma(Division of Science, National Astronomical Observatory of Japan), Norio Narita(The University of Tokyo), Yuka Fujii(National Astronomical Observatory of Japan)

11:00 AM - 1:00 PM

[PAE17-P03] A search for auroral radio emission from β Pictoris b

*Yuta Shiohira1, Yuka Fujii2, Hajime Kita3, Tomoki Kimura4, Yuka Terada5,6, Keitaro Takahashi1,2 (1.Kumamoto University, 2.National Astronomical Observatory of Japan, 3.Tohoku Institute of Technology, 4.Tokyo University of Science, 5.Academia Sinica Institute of Astronomy and Astrophysics, 6.National Taiwan University)

Keywords:Exoplanet, Auroral radio emission, β Pictoris b

Magnetized exoplanets can be the source of the auroral radio emission, and observing this emission from planets potentially enables us to constrain planetary magnetic field strength. Although close-in planets have been expected to drive intense emission through the interaction with the host star wind and have been targets in many previous observations, no clear detection has been reported yet. Meanwhile, long-orbit planets could also emit strong auroral radio emissions via a mechanism similar to that of Jovian radio emission, namely magnetosphere-ionosphere coupling, if the planet has strong magnetic field, fast rotation and plasma sources.

In this work, we searched for the signal from β Pictoris b using upgrade Giant Metrewave Radio Telescope (uGMRT). Observation of this target was motivated by its large mass and high luminosity, which may lead to strong magnetic field, as well as the reported fast rotation (~8 hours) and the approximately edge-on orbital geometry. Assuming β Pictoris b has plasma sources such as satellites in the magnetosphere, it could have strong auroral radio emission. The observations were carried out for 8 hours in total in band 3 centered at 400 MHz (250-500MHz). We detected no signal and set 3σ upper limits of 0.18 mJy. We will discuss the constraints on the parameters obtained from this upper limit.