BEGIN:VCALENDAR VERSION:2.0 PRODID:-//CERN//INDICO//EN BEGIN:VEVENT SUMMARY:Formation of the Andromeda Giant Southern Stream and the ring stru ctures in the Andromeda Galaxy DTSTART;VALUE=DATE-TIME:20230321T112500Z DTEND;VALUE=DATE-TIME:20230321T114000Z DTSTAMP;VALUE=DATE-TIME:20240704T115727Z UID:indico-contribution-189@meetings.aip.de DESCRIPTION:Speakers: Masao Mori (University of Tsukuba)\nRecent observati ons around the M31 have revealed many traces of past interactions with sat ellite galaxies. In particular\, the Andromeda Giant Southern Stream (AGSS ) in the halo and the double ring structure in the disc have been drawing attention. The AGSS is a giant structure extending more than 100 kpc from the center of M31 and is thought to have been formed in a collision with a satellite galaxy about 80 billion years ago (Fardal et al. 2007\; Mori & Rich 2008). On the other hand\, Block et al. (2006) found the double ring structure in M31 made up of gas and dust and argued that the structure was formed by a head-on collision of a satellite galaxy\, M32\, around 20 bil lion years ago. They conclude that the mass of M32 at the time of the coll ision was about one-tenth of the total mass of M31 $\\sim 10^{11} M_\\odot $. Moreover\, a model has been proposed by Hammer et al. (2018) in which t he AGSS and the double ring structure are formed simultaneously by a major merger with the mass of more than $10^{11} M_\\odot$ for the first passag e at the large pericentric distance.\nThese situations motivate us to inve stigate the possible link between the AGSS and the 10kpc ring structures u sing $N$-body/SPH simulations of a miner merger between the M31 and a sate llite galaxy with a mass of $10^{10} M_\\odot$. The simulation result succ essfully matches the observed features of the AGSS and the 10 kpc rings co ncurrently. The stars are smoothly distributed in the galactic disk\, but there are some rings of gas and dust that reproduce the observations. In addition\, we demonstrate the spatial metallicity distribution of the merg er remnants\, assuming the progenitor galaxy's metallicity gradient. The r esult remarkably captures the observed features in the AGSS exhibiting non -uniform metallicity distribution perpendicular to the AGSS axis (Preston et al. 2021). These results indicate that a minor merger of the massive dw arf galaxy is also capable of simultaneously forming the AGSS and the 10 k pc ring.\n\nhttps://meetings.aip.de/event/20/contributions/189/ LOCATION:Haus H\, Telegrafenberg URL:https://meetings.aip.de/event/20/contributions/189/ END:VEVENT END:VCALENDAR