Disorder put to good use; the origin of the universe
15 January 2024
NWO M-grants are intended for realising curiosity-driven, fundamental research of high quality and/or scientific urgency. The M-grant offers researchers the possibility to elaborate creative and risky ideas and to realise scientific innovations that can form the basis for the research themes of the future.
Quantum effects are fascinating, but can only be observed at extremely low temperatures. One approach to push the quantum world to higher temperatures is to use a newly discovered class of crystalline materials: magnetic topological insulators (MTIs). In Anna Isaeva's project, the search is on for new MTIs with exactly the right properties to be used for next-generation spintronics applications, energy-saving and quantum technologies. Where traditionally disorder is the enemy of crystalline materials, the researchers will exploit intermixing disorder, swapping magnetically active atoms around in the crystalline lattice to create robust designer magnets that accomodate quantum effects.
In an attempt to address this question, the research project that Daan Meerburg and Christoph Weniger propose will use clever and very advanced computer algorithms. By simulating and analysing radiowaves from the early universe, the researchers will explore whether these algorithms can distinguish a signal from the early universe from the noise and provide clues about its origin. Results from the work will be of direct importance to existing and upcoming radio experiments with direct involvement of the Dutch astronomy community.