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VisitPrimary influence on M87 black hole jet's behavior identified by end of 2025?
Magnetic Fields • 25%
Black Hole Spin • 25%
Surrounding Matter • 25%
Other • 25%
Scientific publications or announcements from research institutions
NASA's Hubble Captures 3,000-Light-Year Plasma Jet from M87 Black Hole, Reveals Magnetic Fields and Gamma-Ray Bursts
Nov 18, 2024, 11:20 AM
Recent studies and discoveries have shed new light on black holes, particularly focusing on their jets and magnetic fields. NASA's Hubble Space Telescope captured remarkable images of a colossal plasma jet, measuring 3,000 light-years, emanating from the supermassive black hole at the center of galaxy M87. This jet, described as 'blowtorch-like,' is composed of superheated gas and appears to significantly influence its environment. Additionally, new simulations have revealed that black holes inherit magnetic fields from their parent stars, providing insights into the mechanisms behind their powerful jets and gamma-ray bursts. These findings were published in The Astrophysical Journal Letters, contributing to a growing understanding of black hole dynamics and their interactions with surrounding matter.
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New theoretical explanation • 25%
Observation of similar black holes • 25%
Revised feeding rate • 25%
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NASA • 25%
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New type of black hole • 25%
Black hole merger event • 25%
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Dormant phases • 25%
Black hole mergers • 25%
Black hole formation • 25%
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Yes, a major breakthrough occurs • 25%
No significant breakthroughs • 25%
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Star matter ingestion • 33%
Galaxy collision • 33%
Other cause • 33%
Another star is destroyed • 25%
Black hole increases in mass significantly • 25%
New celestial object discovered in debris • 25%
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Another binary star system • 25%
Planetary system • 25%
Unusual stellar activity • 25%
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Supermassive Black Holes • 25%
Stellar Black Holes • 25%
Intermediate Black Holes • 25%
Primordial Black Holes • 25%
Quantum Computing • 25%
Machine Learning • 25%
Holographic Duality • 25%
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