Scientists detect rapid changes in a black hole that may explain gamma-ray bursts

Probing black hole magnetic fields billions of light-years away from Earth requires very sensitive devices and to find the exact moment when the emission of high energy takes place. This is precisely what the research team led by Iván Martí-Vidal, CIDEGENT researcher of the Valencian Government at the Astronomical Observatory and the Department of Astronomy of the University of Valencia, and main author of this work, has achieved. This team has used ALMA (Atacama Large Millimeter Array), the most sensitive telescope in the world at millimeter wavelengths, to obtain precise information about the magnetic fields of a distant black hole, at a moment when energetic particles were producing an enormous amount of gamma radiation.

The scientists report observations of the black hole called PKS1830-211, located more than 10 billion light-years from Earth. These observations demonstrate that the magnetic fields in the region where the most energetic particles of the black hole’s jet are produced were changing their structure notably in a time interval of only a few minutes.

“This implies that magnetic processes are originating in very small and turbulent regions, just as the main models of gamma-ray production in black holes predict, which relate turbulence to gamma radiation,” explains Iván Martí-Vidal. “On the other hand, the changes that we have detected took place during a very powerful gamma-ray episode, which allows us to robustly relate them to the high-energy emission. All this brings us a little closer to understanding the origin of the most energetic radiation in the universe,” he adds.

To analyze this data, the team of Martí-Vidal has used an advanced analysis technique that allows them to obtain information of rapidly changing sources from interferometric observations, such as those obtained with ALMA. “Interferometry gives us the power to observe the universe with an unparalleled level of detail; in fact, it is the technique on which the Event Horizon Telescope (EHT) is also based, which recently obtained the first image of a black hole,” says Martí-Vidal. “A part of our CIDEGENT project is, in fact, dedicated to developing algorithms like the one we have used in these ALMA observations, but applicable to much more complex data such as those from the EHT, which would allow us to reconstruct, in a near future, ‘movies’ of black holes, instead of mere images,” says the astronomer of the University of Valencia.

Alejandro Mus, CIDEGENT predoctoral researcher at the UV Department of Astronomy and a co-author of the article, develops his doctoral thesis in this field. “Within the EHT project, there are many experts from several institutions working against the clock to solve the issue of rapid source variability,” says Mus. “At the moment, the algorithm we have developed works with the ALMA data and has already allowed us to obtain key information about how the magnetic fields associated to PKS1830-211 change at scales of a few tens of minutes. We hope to be able to contribute soon to the EHT with the more sophisticated algorithms we are working on,” he concludes.

Source: “Scientists detect rapid changes in a black hole that may explain gamma-ray bursts” PhysOrg, 2 July 2020

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