Tomorrow at the Heidelberg Joint Astronomical Colloquium, Ian Roederer will show how UV spectroscopy with the ELT and the proposed Habitable Worlds Observatory mission could revolutionize our understanding of the first stars in the decades ahead 🔭
physik.uni-heidelberg.de/hephysto/ind...
MPIA researchers discovered clear differences between the morning and evening sides of the ultrahot gas planet WASP-121 b with JWST 🔭
www.mpia.de/news/science...
MPIA-Forschende entdecken mit dem James Webb Space Telescope deutliche Unterschiede in der Atmosphäre des ultraheißen Exoplaneten WASP-121 zwischen der morgendlichen und abendlichen Übergangszone 🔭
www.mpia.de/aktuelles/wi...
Today at the Heidelberg Joint Astronomical Colloquium, Victor Ksoll will introduce the Invertible Neural Network framework for inverse problems, review successful applications of INNs in astronomy, and outline our ongoing developments 🔭
physik.uni-heidelberg.de/hephysto/ind...
Tomorrow at the Heidelberg Joint Astronomical Colloquium, Douglas Lin will look into analogies between the rapid growth of supermassive black holes in the early Universe and planet formation in protostellar disks 🔭
physik.uni-heidelberg.de/hephysto/ind...
Max-Planck-Institut für Astronomie
Tomorrow at the Heidelberg Joint Astronomical Colloquium, Oscar Agertz will discuss the properties of gas-rich, high-redshift disks, and how these early phases of disk assembly connect to spectroscopic and astrometric observations of the Milky Way 🔭
physik.uni-heidelberg.de/hephysto/ind...
Today at the Heidelberg Joint Astronomical Colloquium, MPIA's Aarya Patil will show how combining spectroscopic, asteroseismic, and astrometric data yields precise estimates of stellar ages, chemical compositions, and orbits 🔭
physik.uni-heidelberg.de/hephysto/ind...
Max-Planck-Institut für Astronomie
Max-Planck-Institut für Astronomie
Max-Planck-Institut für Astronomie
Today at the Heidelberg Joint Astronomical Colloquium, Luca Fossati will show how NLTE processes shape the physical and chemical structure of Ultra-hot Jupiter atmospheres and discuss the observational evidence supporting these results 🔭
physik.uni-heidelberg.de/hephysto/ind...
Max-Planck-Institut für Astronomie
Max-Planck-Institut für Astronomie
Max-Planck-Institut für Astronomie
Max-Planck-Institut für Astronomie
Astronomen entdecken Unterschiede in Temperatur und Chemie zwischen Morgen- und Abendzone auf dem ultraheißen Exoplaneten WASP-121 b.
