A global research study team is advancing accuracy timekeeping by developing a nuclear clock utilizing thorium isotopes and innovative laser approaches, potentially transforming our understanding of physical constants and dark matter. At the end of 2023, the Austrian Science Fund FWF has actually set up a so-called “Special Research Area” for this purpose, similar to a Collaborative Research Centre of the German Research Foundation (DFG). With her group, she also conducts research study in the Würzburg-Dresden Cluster of Excellence ct.qmat– Complexity and Topology in Quantum Materials.The jump of a thorium nucleus from the thrilled to the ground state is the beginning point of a brand-new type of clock that research study teams from Würzburg and Vienna desire to establish. Research study on an Isotope of the Element ThoriumThe research group is focusing on an isotope of the component thorium. For that, she gets around 375,000 euros from the special research locations funding pot– adequate to fund 2 doctoral positions.For physicists, this research study task is very exciting, says Pálffy-Buß.
At the end of 2023, the Austrian Science Fund FWF has set up a so-called “Special Research Area” for this purpose, equivalent to a Collaborative Research Centre of the German Research Foundation (DFG). With her group, she also carries out research study in the Würzburg-Dresden Cluster of Excellence ct.qmat– Complexity and Topology in Quantum Materials.The jump of a thorium nucleus from the excited to the ground state is the beginning point of a new type of clock that research study groups from Würzburg and Vienna want to establish. Research on an Isotope of the Element ThoriumThe research study team is focusing on an isotope of the component thorium.
