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Main Colloquium |
Professor Caroline Heneka
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University of Heidelberg
The era of radio astronomy is rapidly transforming as next-generation
instruments, in particular the Square Kilometre Array (SKA), begin to
map vast portions of the observable Universe. These surveys generate
enormous and complex datasets, from millions of galaxies across cosmic
time to mappings of the intergalactic medium and large-scale structure
via the 21cm background during the Epoch of Reionization. Modern AI and
machine learning methods are becoming essential for extracting
scientific insight from these data. In this talk, I will highlight how
flexible, data-driven approaches enable robust scientific analyses
across the full workflow from simulations and observational modeling to
inference, and show how they help to gain insights on galaxy evolution,
the properties of the intergalactic medium, and fundamental physics,
while accelerating discovery across large radio surveys.