Selected Research Highlights

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Collage of two images from a scientific publication. On the left, five graphs in a double logarithmic representation; on the right, four panels showing a value on a color scale across different two-dimensional subspaces.

A Hannover-Cardiff research team has developed a new, generic, compactness-based framework for distinguishing between signals from black hole mergers and those from exotic compact objects. more

Squeezing out noise

Squeezing out noise

May 21, 2025

Researchers at AEI Hannover develop new method to stabilize laser power, enabling more precise measurements in low-power experiments more

Modelling 120 binary neutron star mergers

Alternative gravity simulations challenge conclusions about neutron star matter more

Towards a deeper understanding of black hole origins

Research team studies the impact of remnant kicks on spin distributions of black holes from hierarchical mergers more

Binary black hole mergers: What causes the final kick?

Decoding the physics of asymmetric gravitational-wave radiation and its connection to black-hole kicks more

Hunting continuous gravitational waves from binary neutron stars

AEI researchers develop and conduct most sensitive search to date more

Tunable highly reflective metasurfaces

International team led by Leibniz University Hannover researchers demonstrate wavelength-selective metamirrors based on sapphire and silicon nanoparticles more

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