Department of Theoretical Physics and Astrophysics
Faculty of Science
Masaryk University
29. 9. 2017: 10:00, místnost F1
Petr Jelínek: Magnetohydrodynamical waves and oscillations in Sun's corona (habilitation's lecture)

Tomorrow: 1pm, lect. room F1
Jiří Krtička: The light variability of stars theta Aur, and Cen a CU Vir

21. 9. 2017: 11:00, Room 3029 Lenka Zychová - Interstellar Bubbles
18. 9. 2017: Semester opening
8. 9. 2017: Festival of Science 2017: Our institute is again part of it! Sun observations, making a sundial and a model of the Sun. More info here.
Faculty of Science, MU
Dept. of Theor. Phys. & Astrophysics
Kotlářská 2 (Building No. 6)
CZ-611 37 Brno
Czech Republic
Phone: +420 54949 4633

The first galaxies were even more violent than expected

Brno, 29 June 2017

An international team of researchers has shown that the hot diffuse gas that fills the space between the galaxies has the same concentration of iron in all galaxy clusters that were studied in sufficient detail by the Japanese Suzaku satellite. It seems that most of the iron inside the intergalactic gas arose long before the first clusters of galaxies were formed. The results will be presented this Friday at the annual meeting of the European Astronomical Society, EWASS2017, in Prague, Czech Republic by Norbert Werner, associate professor at the Masaryk University in Brno.

The team studied the hot gas permeating ten nearby clusters of galaxies and showed that the concentration of chemical elements is about the same in all of them - a third of that observed in our Sun.

These results confirm earlier indications, which suggested that most of the iron in the Universe was produced and spread throughout intergalactic space before galaxy clusters formed, more than 10 billion years ago. The iron, and many other elements, was blown out of galaxies by the combined energy of billions of supernovae, as well as outbursts from growing supermassive black holes.

Only hydrogen, helium, and trace amounts of lithium were produced during the big bang. Most of the elements that we are made of were forged inside stars and released by stellar explosions called supernovae. How well are the elements spread through the intergalactic space has long been an open question.

“If these elements were produced relatively recently, astronomically speaking, then we would expect a different concentration of iron from cluster to cluster. The fact that the distribution of iron appears so homogeneous, indicates that it has been produced by some of the first stars and galaxies that formed after the big bang,” says Ondrej Urban, the first author of the study who has been a PhD at Stanford University when he performed the extensive data analysis presented in the study.

“The remarkably uniform distribution of iron also means that the combined energy of many supernovae and the jets and winds of accreting supermassive black holes were able to mix the elements thoroughly across the Universe,” says the corresponding author of the study, Norbert Werner, associate professor at the Masaryk University in Brno.The results are accepted for publication in the Monthly Notices of the Royal Astronomical Society.

Full paper is here:A uniform metallicity in the outskirts of massive, nearby galaxy clusters.

Contact: doc. Mgr. Norbert Werner, Ph.D.,

Mgr. Lenka Zychová,