An international collaboration has gained an unprecedented view of the processes in an active galactic nucleus. Using data collected from telescopes around the world, the team was able to detect a long-suspected process in the plasma jet of the active galactic nucleus BL Lacertae. The evidence is so spectacular that the work made it into the current issue of the renowned science journal Nature. Private lecturer Dr. Dominik Elsässer from the Department of Physics at TU Dortmund University was also involved in the observations. He worked with students from Würzburg to collect the data.
Active galactic nuclei are among the most luminous objects in the universe. They are extremely bright central regions of galaxies that can be observed from great distances. Their brightness usually results from the processes around a black hole, towards which matter from the surroundings rushes. Sometimes plasma streams of charged particles, so-called jets, are formed in the process. Astrophysicists study active galactic nuclei and their jets because they suspect that these particles can accelerate enormously and reach much higher energies than the largest particle accelerators on Earth.
Kink in the plasma stream causes brightness fluctuations
A subclass of active galactic nuclei are the so-called "blazars". One well-known blazar is called "BL Lacertae": This galaxy, about 900 million light years away, hosts a black hole with a mass 170 million times greater than that of our Sun. When analysing data from a particular burst of brightness from BL Lacertae in 2020, astronomers noticed that the brightness fluctuated at an unusually regular rate. The researchers were able to explain these quasi-periodic oscillations with a change in the jet's plasma, a so-called kink instability, which influences the magnetic field. The visible fluctuations in brightness occur because the high-energy particles in the jet move through precisely this kink.
"The kink-in stability is of great importance for the study of plasmas. The discovery in the jet of BL Lacertae now provides completely new insights into this cosmic particle accelerator," says Dr. Dominik Elsässer. For this reason, the work was selected for publication by the renowned journal Nature. The publication was produced as part of the Whole Earth Blazar Telescope project, an international consortium of astronomers who specifically monitor blazars.
Students monitor brightness of active galactic nuclei
Part of the data that led to the current Nature publication comes from a cooperation project between the Friedrich-Koenig-Gymnasium in Würzburg, the Department of Astronomy at the University of Würzburg and the Department of Physics at TU Dortmund University. The brightness of active galactic nuclei has been monitored in a school laboratory for ten years. The pupils carry out the measurements independently on more than 100 nights per year and also evaluate the data independently. Prof. Karl Mannheim from the University of Würzburg and Dr. Dominik Elsässer from TU Dortmund University are the scientific directors of the project.
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The campus of the Technical University of Dortmund is located near the freeway junction Dortmund West, where the Sauerland line A45 crosses the Ruhr expressway B1/A40. The Dortmund-Eichlinghofen exit on the A45 leads to the South Campus, the Dortmund-Dorstfeld exit on the A40 leads to the North Campus. The university is signposted at both exits.
The "Dortmund Universität" S-Bahn station is located directly on the North Campus. From there, the S-Bahn line S1 runs every 20 or 30 minutes to Dortmund main station and in the opposite direction to Düsseldorf main station via Bochum, Essen and Duisburg. In addition, the university can be reached by bus lines 445, 447 and 462. Timetable information can be found on the homepage of the Rhine-Ruhr transport association, and DSW21 also offer an interactive route network map.
One of the landmarks of the TU Dortmund is the H-Bahn. Line 1 runs every 10 minutes between Dortmund Eichlinghofen and the Technology Center via Campus South and Dortmund University S, while Line 2 commutes every 5 minutes between Campus North and Campus South. It covers this distance in two minutes.
From Dortmund Airport, it takes just over 20 minutes to get to Dortmund Central Station by AirportExpress and from there to the university by S-Bahn. A wider range of international flight connections is offered by Düsseldorf Airport, about 60 kilometers away, which can be reached directly by S-Bahn from the university's train station.
The facilities of TU Dortmund University are spread over two campuses, the larger Campus North and the smaller Campus South. Additionally, some areas of the university are located in the adjacent "Technologiepark".Zum Lageplan
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