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The gas in and around galaxies can be probed with absorption line studies using light from background quasars. Scientists at MPA have now used a large sample from the SDSS DR16 to automatically detect absorbers in background quasars and connect them with foreground galaxies. Their analysis shows that cool circumgalactic gas has a different physical origin for star-forming versus quiescent galaxies.

The cool circumgalactic medium in SDSS galaxies

Some of the most energetic radiation that reaches Earth comes from an exploded star in our Galaxy. An international team of researchers was now able to measure the distance to this object using an adjacent dust cloud with much higher degree of precision than ever before. This is the first step in better understanding the energetic processes that are going onin this supernova remnant.

Dust cloud determines distance

Magnetic fields are ubiquitous in the Universe today, from stars to clusters of galaxies. Their origin, however, remains a mystery. MPA researchers have now simulated in great detail a variety of proposed mechanisms for magnetogenesis – i.e. how magnetic fields might be created – in high-redshift galaxies. They also studied their impact on the formation and evolution of galaxies, providing guidance to both future observations and simulations. Their work demonstrates that high-redshift galaxies may hold the key to understanding the origin of cosmic magnetic fields. It also provides the first-ever investigation on galactic scales of a novel magnetogenesis mechanism.

Magnetogenesis around the first galaxies and its impact on galaxy formation

Intermediate mass black holes (IMBH) should be linking observed stellar black holes and supermassive black holes, but their formation mechanisms are still debated. Young and dense massive star clusters are promising environments for the formation of such black holes through collisions. An international team lead by MPA researchers has presented novel realistic simulations of star clusters, where these missing links form by rapid collisions of stars and black holes. The study also predicts an IMBH formation channel by the merging of black holes in a mass regime, which is excluded by stellar evolution models. In this “mass gap” a black hole merger has indeed been observed recently by the LIGO/Virgo gravitational wave collaboration.

The formation of intermediate mass black holes in young massive star clusters

Where are the baryons? This question naturally arises as the predicted abundance of baryons in the universe - the basic building blocks of all elements in the periodic table – do not agree with observations of the intergalactic medium. Locating the missing baryons will help us to not only better understand the formation and evolution of galaxies, but also to better constrain possible extensions of the current standard model of cosmology. MPA researchers have turned to a novel approach in modelling the galaxy distribution to optimize measurements of the kinematic Sunyaev-Zel'dovich effect, an emerging tool to probe the distribution of baryons in galaxy clusters.

Optimal measurements of the kinematic Sunyaev-Zel'dovich effect reveal missing matter

How can machine learning methods help us understand our tangled cosmic web? A new study presents a ‘deep learning’ framework to shed light onto the physics of the formation of dark matter halos. The results show that spherical averages over the initial conditions of the Universe carry the most relevant information about the final mass of halos.

‘Deep learning’ provides insights into cosmological structure formation

The first all-sky survey performed by the eROSITA X-ray telescope on-board the SRG observatory has revealed a large hourglass-shaped structure in the Milky Way. These “eROSITA bubbles” show a striking similarity to the Fermi bubbles, detected a decade ago at even higher energies. The most likely explanation for these huge features is a massive energy injection from the Galactic centre region in the past, leading to shocks in the hot gaseous halo around our galaxy.

SRG/eROSITA detects large-scale X-ray bubbles encompassing the Fermi bubbles

News at MPA

Note due to corona: Contacting MPA

To contain the spread of corona virus infections, the MPA has enacted certain changes to protect its employees. For the time being, the MPA will not offer public events, and its staff will not undertake travel or attend conferences. Meetings will primarily be held via video conferencing.
It might be difficult to reach some staff members by telephone, please use Email instead. Mail continues to be received. Please note, however, that there might be some delays in getting a response.
For information about MPG research on the Corona virus, please see here:

The SRG X-ray observatory receives the Marcel Grossmann Institutional Award 2021

July 06, 2021

The Spektrum-Roentgen-Gamma (SRG) orbital X-ray observatory receives the Award “for the creation of the world's best X-ray map of the entire sky, for the discovery of millions of previously unknown accreting supermassive black holes at cosmological redshifts, for the detection of X-rays from tens of thousands of galaxy clusters, filled mainly with dark matter, and for permitting the detailed investigation of the growth of the large- scale structure of the universe during the era of dark energy dominance”.

Luisa Lucie-Smith awarded RAS Michael Penston Thesis Prize - runner up

June 24, 2021

MPA Postdoc Luisa Lucie-Smith has been awarded the RAS Michael Penston 2020 runner up prize for her thesis, ‘Insights into Cosmological Structure Formation with Machine Learning’, which she did at UCL before coming to MPA. The Michael Penston Prize is awarded annually by the Royal Astronomical Society for the best doctoral thesis in astronomy or astrophysics, including astrochemistry, astrobiology and exoplanets.

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Towards understanding the role of protostellar jets in star formation using high resolution observations in the infrared

from 10:00 to 11:00

Coordinating time-domain astronomy for black hole hunt

from 10:45 to 11:45

The eROSITA Final Equatorial-Depth Survey: Combining the optical and X-ray view to study galaxy clusters

from 11:00 to 12:00

White holes and their possible astrophysics

from 15:15 to 16:15

Applying Scattering Amplitude Methods to State-of-the-Art Calculations for gravitational-wave detectors

from 17:00 to 18:00

Please note the unusual time!

DES Y3 results: a holistic view

from 15:30 to 16:30

An orientation bias in observations of dusty star forming galaxies

from 12:00 to 13:00

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About MPA

Structure

Managing Director
Prof. Dr. Volker Springel

Scientific Members, Kollegium, Directors
Dr. Selma E. de Mink
Prof. Dr. Guinevere Kauffmann
Prof. Dr. Eiichiro Komatsu
Prof. Dr. Volker Springel

Emeritus Directors
Prof. Dr. Wolfgang Hillebrandt
Prof. Dr. Rashid Sunyaev
Prof. Dr. Simon White

External Scientific Members
Prof. Dr. Rolf-Peter Kudritzki
Prof. Dr. Werner Tscharnuter

Head of the administration
Hendrik Wanger

Contact

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Dr. Hannelore Haemmerle
Phone: 089 30000-3980
Cornelia Rickl
Phone: 089 30000-2201
Dr. Hans-Thomas Janka
Phone: 089 30000-2228

email: pr@mpa-garching.mpg.de

Max Planck Institute for Astrophysics, Garching
Karl-Schwarzschild-Str. 1
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D-85741 Garching, Germany

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