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In 2015 we detected, for the first time, a gravitational wave from the coalescence of two black holes in a faraway galaxy. More and better measurements will provide exciting new input to fundamental questions about black holes, neutron stars, the structure of our universe and its history back to the Big Bang. We are experts in the technology required for this new type of astronomy. With this proposal we will contribute high-tech instrumentation to upgrade the Virgo observatory. The new observatory will deliver ten times more detections per year than previously.

As the chemical industry shifts towards electrified and circular chemical processes, methane is expected to become a major bottleneck for closing the carbon loop. It is critical that methane is valorised rather than burnt for energy to achieve zero CO2 emissions. This project develops ultrafast plasma pyrolysis of methane to ethylene as innovative and economically viable technology for methane valorisation. It requires fundamental insight into chemical kinetics occurring on microsecond timescales, which are resolved by combining solid state microwave generators with mid-infrared frequency combs spectroscopy.

The role of molecular vibration in plasma conversion of molecules to useful chemicals is still unclear. In this project, a new computational technique for describing molecular vibration will be used in synergy with experimental measurements. This will provide fundamental insights into the control of reaction mechanisms, in particular for energy-efficient plasma conversion of nitrogen.