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So what does our spiral pattern tell us about the magnetic fields around Sagittarius A*? The field is actually strong and ordered! cr. Crazybridge Studios, EHT Collaboration #MagneticBlackHole #EHTblackhole 🔗
61,387 просмотров • 2 лет назад •via X (Twitter)
Комментарии: 10

Breaking news: the Event Horizon Telescope team unveils strong magnetic fields spiraling at the edge of Milky Way’s central black hole, Sagittarius A*. This new image suggests that strong magnetic fields may be common to all black holes. #OurBlackHole #SgrABlackHole

This image is accompanied by two publications in ApJL: Sgr A* Paper VII: Sgr A* Paper VIII: Read the press release here:

The EHT polarization images of M87* and Sagittarius A* indicate that these beasts have similar magnetic field structures. This suggests that the processes that govern how a black hole feeds and launches a jet may be universal features! cr. EHT Collaboration

What exactly is polarization? Learn how light waves have a direction of oscillation that teaches us about magnetic fields near our Sagittarius A* black hole! cr. Fiks Film, EHT Collaboration 🔗

Simulations that look almost identical can look vastly different with polarized light. Learn more in this video! cr. CrazyBridge Studios, EHT Collaboration 🔗

It informs us that conservational geometric symmetries apply to all emergent phenomena independently of scale. Even emergent entropic time is bound by conservation, providing a fluid symmetry to time. Relativistic fluid dynamics applies and dilation stress denotes gravity. It proves me correct again.

Which means there could be a jet or certainly a more visible jet if there was more material falling into Sagittarius a star . I assume these ordered magnetic field funnel material into these powerful jets we see in active galaxies with quasars.

Are we saying it looks like vortex...?

@ezdubs_bot english spanish

great video

