日本地球惑星科学連合2022年大会

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[J] 口頭発表

セッション記号 P (宇宙惑星科学) » P-CG 宇宙惑星科学複合領域・一般

[P-CG20] 宇宙における物質の形成と進化

2022年5月27日(金) 13:45 〜 15:15 302 (幕張メッセ国際会議場)

コンビーナ:大坪 貴文(自然科学研究機構 国立天文台)、コンビーナ:野村 英子(国立天文台 科学研究部)、瀧川 晶(東京大学 大学院理学系研究科 地球惑星科学専攻)、コンビーナ:荒川 創太(国立天文台)、座長:本間 和明(東京工業大学)、大坪 貴文(自然科学研究機構 国立天文台)


15:00 〜 15:15

[PCG20-06] 銀河系の果てから探る過去の宇宙の物質進化

★招待講演

*下西 隆1、泉 奈都子2古家 健次3、安井 千香子3 (1.新潟大学、2.台湾中央研究院 天文及天文物理研究所、3.国立天文台)

キーワード:星間分子、原始星、銀河系外縁部、金属量、星間化学、電波天文学

Understanding the properties of the interstellar medium at low metallicity is crucial to unveil physical and chemical processes in the past Galactic environment, where the abundance of heavy elements was significantly lower compared to the present-day solar neighborhood. We here report the first detection of a protostar and the surrounding cocoon of complex organic molecules at the edge of our Galaxy, which is known as the extreme outer Galaxy[1].

It is believed that the far outer part of our Galaxy still harbors a primordial environment that existed in the early epoch of galaxy formation. The environmental characteristics of the extreme outer Galaxy, e.g., low abundance of heavy elements, small or no perturbation from Galactic spiral arms, are very different from those seen in the present-day solar neighborhood. Because of its unique characteristics, the extreme outer Galaxy is believed to be an excellent laboratory to study star formation and the interstellar medium in the past Galactic environment.

In this work, we carried out ALMA observations towards a star-forming region, WB 89-789, which is located at a galactocentric distance of 19 kpc. Our high-sensitivity and high-spatial resolution submillimeter observations detected a variety of carbon-, oxygen-, nitrogen-, sulfur-, and silicon-bearing species, including complex organic molecules containing up to nine atoms (e.g., methanol, ethanol, methyl formate, formamide, etc.), toward a warm (>100 K) and compact (<0.03 pc) region associated with a protostar. Deuterated species such as HDO, HDCO, D2CO, and CH2DOH are also detected. A comparison of fractional abundances of complex organic molecules relative to methanol between this outer Galactic protostar and an inner Galactic counterpart shows a remarkable similarity.

The presence of a great chemical complexity in a primordial environment of the extreme outer Galaxy, and its chemical similarity with inner Galactic sources, suggest that the interstellar conditions to form the chemical complexity might have persisted since the early history of the Universe.

[1] T. Shimonishi, N. Izumi, K. Furuya, and C. Yasui, 2021, ApJ, 922, 206 (39pp)