I co-lead the Kilo Degree Survey (KiDS), a high priority European survey that observes the night sky in only the very best weather conditions at the European Southern Observatory in Chile. The highlights from this truely exquisite data set, charted the growth of dark matter structures over time, directly testing models for how dark energy has evolved (Hildebrandt, Viola & Heymans* et al. 2017, over 600 citations, Heymans et al 2021, over 200 citations).
Our analysis found that the distribution of dark matter today was not as ‘clumpy’ or ‘condensed’ as expected based on our knowledge of the Universe right after the Big Bang. Taken at face-value, our result points towards a rather exotic evolving dark energy model or a modified gravity theory, but we need to collect more data before we can robustly draw this conclusion. Our headline publications presenting these results are in the top ten most highly cited astronomy papers for their published years (Hildebrandt, Viola & Heymans* et al. 2017, Heymans et al 2021).
These papers are just two out of 110 different publications from our project this reporting period, that range between detailed technical and instrument studies, through to developments in statistical theoretical physics. It is this broad range of skills and abilities that our team covers that will enable our long-term goal to test gravity on cosmological scales.