Dec 21 Tue 10:00~11:30 太陽系小天体セミナー / Solar System Minor Body Seminar zoom
Dec 22 Wed 14:30~15:30 ALMA-J seminar zoom
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“2021.12.20-2021.12.26” の続きを読む国立天文台 セミナー情報 / Seminar Information
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太陽系小天体セミナー
詳細は以下をご覧下さい
“2021.12.20-2021.12.26” の続きを読む詳細は以下をご覧下さい
“2021.12.13-2021.12.19” の続きを読む詳細は以下をご覧下さい
“2021.12.6-2021.12.12” の続きを読む詳細は以下をご覧下さい
キャンパス:三鷹
セミナー名:太陽系小天体セミナー
定例・臨時の別:定例
日時:11月30日(火曜日)10時00分~11時30分
場所:zoom
世話人の連絡先
名前:渡部潤一
備考:テレビ会議またはスカイプによる参加も可
Campus:Mitaka
Seminar:NAOJ Science Colloquium
Regularly Scheduled/Sporadic:Every Wednesday
Date and time:2021 Dec 1, 15:30-17:00
Place:zoom
Speaker:Fabian Schneider
Affiliation:HITS gGmbH
Title:Turbulent Lives of Stars
Abstract:Stars are the basic building blocks of the visible Universe. Understanding how they transformed the pristine Universe into the one we live in today is at the heart of astrophysical research and vital for many areas in astrophysics. For example, massive stars are cosmic powerhouses and their immense radiation, strong stellar winds and powerful supernova explosions helped to re-ionise the Universe after the Dark Ages, drive the evolution of galaxies and laid the foundation for life as we know it. At the end of their lives, stars produce compact objects whose mergers are now routinely observed thanks to gravitational-wave observatories. Yet, our understanding of the lives and final fates of stars is seriously incomplete. I will review some pressing challenges in stellar astrophysics with a particular emphasis on massive binary stars. In binary systems, stars can exchange mass, thereby completely changing their evolution and final fates. Stripping off the envelope of a massive star may allow it to explode in a supernova and produce a neutron star instead of collapsing into a black hole. In many cases, binary mass transfer results in stellar mergers and common-envelope episodes. I will present simulations that show the emergence of strong magnetic fields in such dynamic and turbulent phases with possibly far-reaching consequences. Merged stars may be highly magnetic and the progenitors of the strongest magnets in the Universe, so-called magnetars. In common-envelope episodes, the magnetic fields can drive bipolar, jet-like outflows and may help explain the shapes of asymmetric planetary nebulae.
Facilitator
-Name:Akimasa Kataoka
Comment:English
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“2021.11.15-2021.11.21” の続きを読む