توضیحArtist’s impression of the system with the most massive stellar black hole in our galaxy (eso2408a).jpg
English: Astronomers have found the most massive stellar black hole in our galaxy, thanks to the wobbling motion it induces on a companion star. This artist’s impression shows the orbits of both the star and the black hole, dubbed Gaia BH3, around their common centre of mass. This wobbling was measured over several years with the European Space Agency’s Gaia mission. Additional data from other telescopes, including ESO’s Very Large Telescope in Chile, confirmed that the mass of this black hole is 33 times that of our Sun. The chemical composition of the companion star suggests that the black hole was formed after the collapse of a massive star with very few heavy elements, or metals, as predicted by theory.
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پدیدآور
ESO/L. Calçada
دیگر نسخهها
TIFF version
اجازهنامه
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عنوان
شرحی یکخطی از محتوای این فایل اضافه کنید
Astronomers have found the most massive stellar black hole in our galaxy, thanks to the wobbling motion it induces on a companion star.
این پرونده حاوی اطلاعات اضافهایست که احتمالاً دوربین دیجیتال یا پویشگری که در ایجاد یا دیجیتالی کردن آن به کار رفته آن را افزوده است. اگر پرونده از وضعیت ابتداییاش تغییر داده شده باشد آنگاه ممکن است شرح و تفصیلات موجود اطلاعات تصویر را تماماً بازتاب ندهد.
صاحب امتیاز/ارائه کننده
ESO/L. Calçada
منبع
European Southern Observatory
عنوان کوتاه
Artist’s impression of the system with the most massive stellar black hole in our galaxy
عنوان تصویر
Astronomers have found the most massive stellar black hole in our galaxy, thanks to the wobbling motion it induces on a companion star. This artist’s impression shows the orbits of both the star and the black hole, dubbed Gaia BH3, around their common centre of mass. This wobbling was measured over several years with the European Space Agency’s Gaia mission. Additional data from other telescopes, including ESO’s Very Large Telescope in Chile, confirmed that the mass of this black hole is 33 times that of our Sun. The chemical composition of the companion star suggests that the black hole was formed after the collapse of a massive star with very few heavy elements, or metals, as predicted by theory.
شرایط استفاده
Creative Commons Attribution 4.0 International License
تاریخ و زمان تولید دادهها
۱۶ آوریل ۲۰۲۴، ساعت ۰۹:۰۰
توضیحات پرونده JPEG
Astronomers have found the most massive stellar black hole in our galaxy, thanks to the wobbling motion it induces on a companion star. This artist’s impression shows the orbits of both the star and the black hole, dubbed Gaia BH3, around their common centre of mass. This wobbling was measured over several years with the European Space Agency’s Gaia mission. Additional data from other telescopes, including ESO’s Very Large Telescope in Chile, confirmed that the mass of this black hole is 33 times that of our Sun. The chemical composition of the companion star suggests that the black hole was formed after the collapse of a massive star with very few heavy elements, or metals, as predicted by theory.