Research activities

Abele Group

Research focuses on the control and understanding of basic symmetries and interactions using the techniques of elementary quantum systems.

Test of gravitation with quantum interference


The aim is to improve the experimental sensitivity to gravity and to hypothetical gravity-like forces. At NQPG we are developing a measuring tool, which is based on resonance spectroscopy without relying on electromagnetic fields. It is suitable for gravity experiments at short distances. Such a technique is a quantum interference technique, and – at short distances – should be based on neutrons, where systematic effects are extremely small. In some domains of dark matter and dark energy searches, this technique provides best limits.

Fundamental tests of quantum mechanics with neutron interferometry

The dual nature of neutrons – in some respect a particle, in other respect a wave – is manifested by highly non-local effects observed in neutron interferometry. We are investigating spin ½ systems and questions about coherence, decoherence and quatum-contextuality.

Precision experiments and particle physics

The structure and nature of weak interaction and possible extensions of the Standard Model are addressed by precise electron and proton spectroscopy. In the search for new symmetries, we see these experiments as the next high-precision frontier in the domain of low-energy studies. The focus will be on novel experiments on neutron β-decay. Hypothetical scalar or tensor interactions, which are predicted by supersymmetry, are coming into reach, other related topics are unitarity of quark mixing, right-handed currents or second class currents.