Japan Geoscience Union Meeting 2023

Presentation information

[E] Online Poster

P (Space and Planetary Sciences ) » P-PS Planetary Sciences

[P-PS03] Small Solar System Bodies: New perspectives on the origin and evolution of the Solar System

Thu. May 25, 2023 1:45 PM - 3:15 PM Online Poster Zoom Room (1) (Online Poster)

convener:Tatsuaki Okada(Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency), Fumi Yoshida(University of Occupational and Environmental Health, Japan), Sota Arakawa(Japan Agency for Marine-Earth Science and Technology), Ryota Fukai(Japan Aerospace Exploration Agency)


On-site poster schedule(2023/5/24 17:15-18:45)

1:45 PM - 3:15 PM

[PPS03-P03] ALMA observations of 1 Ceres in 2021

*Shigeru Takahashi1, Takahiro Iino1, Hideo Sagawa2 (1.The University of Tokyo, 2.Kyoto Sangyo University)

Keywords:ALMA, Ceres, Asteroid

Millimeter and submillimeter-wave observations are known to be a powerful tool to investigate the surface and atmospheric properties of solar system bodies (e. g., Takahashi et al. 2010, Iino et al. 2020).
In particular, the high spatial resolution capability of the Atacama Large Millimeter/submillimeter Array (ALMA) has been enabled us to study disk resolved surface properties of asteroids. The first ALMA observations of an asteroid was the main belt asteroid 3 Juno (ALMA Partnership et al. 2015), and the ALMA attained an angular resolution of 0.′′042 (60 km at 1.97 AU), which showed that the asteroids were of the ALMA observation candidates. With the spatially resolved continuum emission images, they revealed a geometric mean diameter as 259 ± 4 km and the resolved temperature distribution of 3 Juno’s surface. From the surface brightness temperature distribution maps, they found the peak position of the temperature was deviated from the sub-solar point.

After the 3 Juno, several asteroid observations have been performed with the ALMA; e.g. 16 Psyche (Shepard et al. 2021), 1 Ceres (Li et al. 2020) and TNOs (Lellouch et al. 2017).
For 1 Ceres , Li et al. (2020) showed the disk-averaged brightness temperature and a rotational light curve at ∼265 GHz continuum during 2015 and 2017 seasons and obtained a disk-averaged brightness temperature between 170 and 180 K in 2017. Comparison with the past thermal data, they confirmed that the brightness temperature of Ceres has a maximum around true anomaly 0°–60° and a minimum around 240°–300°. Their report indicates that the seasonal variation of the temperature has a thermal delay; a maximum temperature occurs after the perihelion and a minimum the aphelion.

In addition to the 2015 and 2017 data, Ceres was observed in 2021 and the data were recently opened to the public (Project code: 2019.1.01118.S). These new data are of interesting in studying Ceres in the post Dawn period. We started the analysis of the data which consist of 5 days observations carried out in Jul. 2021 in frequency range 340-355GHz. In this meeting, we will show initial results of the ALMA data of Ceres in 2021. The geometric parameters of Ceres at the observation date are as follows; r ~2.8AU, delta ~3.2 AU, phase angle ~18 deg. and true anomaly ~243 deg, which means the Ceres was located after the aphelion and the brightness temperature would be around the minimum. We will present the averaged brightness temperature, distribution of the surface temperature and the peak position. The past radiometric data and in-situ observations by Dawn spacecraft will also be discussed.

References:

ALMA Partnership et al. ApJL 808, L2 (2015)
Iino et al. ApJ, 903, L1 (2020)
Lellouch et al. A&A 608, 21 (2017)
Li et al. AJ 159, 215 (2020)
Shepard et al. PSJ 2, 125 (2021)
Takahashi et al. PASJ, 62, L17 (2010)