NASAのインスタグラム(nasagoddard) - 10月4日 02時34分

We have never observed the merger of two supermassive black holes - like the one powering our Milky Way galaxy. When we do, what will astronomers see? Researchers are using high-end computer modeling to help answer that question.
1. VIDEO - Gas glows brightly in this computer simulation of supermassive black holes only 40 orbits from merging. Models like this may eventually help scientists pinpoint real examples of these powerful binary systems.
2. A simulated image of the light emitted by a supermassive black hole binary system where the surrounding gas is transparent. Viewed directly above the plane of the system.
3. A simulated image of the light emitted by a supermassive black hole binary system where the surrounding gas is transparent. Viewed from a 72-degree inclination.
4. A simulated image of the light emitted by a supermassive black hole binary system where the surrounding gas is transparent. Viewed from a 90-degree inclination.
5. A simulated image of the ultraviolet light emitted by a supermassive black hole binary system where the surrounding gas is opaque. Viewed from above the plane of the system.
6. A simulated image of the X-ray light emitted by a supermassive black hole binary system where the surrounding gas is opaque. Viewed from above the plane of the system.
Credit: NASA’s Goddard Space Flight Center
#nasagoddard #supermassive #blackhole #binary #MilkyWay #space #science #light #Xray #UV #supercomputers #simulations #ultraviolet

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