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Event Horizon Telescope observes a black hole-powered jet

Astronomy and Space

Event Horizon Telescope observes a black hole-powered jet

For 3C 279, the unprecedented resolution of the EHT reveals fine features of the jet that have never been seen before. In particular, the newly analyzed data show that the normally straight jet has an unexpected twisted shape at its base.
Jae-Young Kim, of the Max Planck Institute for Radio Astronomy and lead author of the paper, is enthusiastic and at the same time puzzled: “We knew that every time you open a new window to the universe you can find something new. Here, where we expected to find the region where the jet forms by going to the sharpest image possible, we find a kind of perpendicular structure. This is like finding a very different shape by opening the smallest matryoshka doll.”
Colin Lonsdale, director of MIT Haystack Observatory and vice chair of the EHT directing board, explains: “This array was developed specifically for the purpose of imaging the shadows of black holes, but as so often happens in science, improved capabilities lead to unexpected discoveries. This surprising result for 3C 279 is a good example, providing new information on the process of jet formation that challenges current understanding.”
“The results are very surprising,” says Kazunori Akiyama, a Jansky Fellow of the National Radio Astronomy Observatory at MIT Haystack Observatory. Akiyama developed imaging techniques for the EHT to create the first images of the black hole in M87; these algorithms were also used to create the images of quasar 3C 279. “When we observed the quasar for four days within one week, we assumed that we would not see these dynamical changes because the source is so far away (100 times further from Earth than M87). But the EHT observations were so sharp that for the first time we could see tiny changes in motions of the jets within this time frame.”
Opportunities to conduct EHT observing campaigns occur once a year in early springtime, but the March-April 2020 campaign had to be canceled in response to the Covid-19 global outbreak. In announcing the cancellation, Michael Hecht, MIT Haystack Observatory astronomer and EHT deputy project director, concluded that: “We will now devote our full concentration to completion of scientific publications from the 2017 data and dive into the analysis of data obtained with the enhanced EHT array in 2018. We are looking forward to observations with the EHT array expanded to 11 observatories in the spring of 2021.”
The individual telescopes involved in the EHT collaboration are: the Atacama Large Millimetre Telescope, the Atacama Pathfinder EXplorer, the Greenland Telescope (since 2018), the IRAM 30-meter Telescope, the IRAM NOEMA Observatory (expected 2021), the Kitt Peak Telescope (expected 2021), the James Clerk Maxwell Telescope, the Large Millimeter Telescope, the Submillimeter Array, the Submillimeter Telescope, and the South Pole Telescope.
The EHT consortium consists of 13 stakeholder institutes: the Academia Sinica Institute of Astronomy and Astrophysics, the University of Arizona, the University of Chicago, the East Asian Observatory, Goethe-Universität Frankfurt, Institut de Radioastronomie Millimétrique, Large Millimeter Telescope, Max-Planck-Institut für Radioastronomie, MIT Haystack Observatory, National Astronomical Observatory of Japan, Perimeter Institute for Theoretical Physics, Radboud University, and the Smithsonian Astrophysical Observatory.

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