After the TOPOCOM kick of meeting in September 2023, 11 Doctoral Candidates (DCs) were hired and started their research on topological solitons in electrically and magnetically order materials. In their projects, the DCs explore different aspects ranging from the discovery of novel types of functional electric and magnetic solitons to their application in test devices.
Specific highlights were our TOPOCOM training workshops in Trondheim (Norway), Messina (Italy), and Heraklion (Greece), which covered both training through research (science & technology) and training for life (transferable skills). Here, the DCs learnt, for example, about fundamentals concerning electric and magnetic solitons, as well as materials synthesis and device applications, and they had various lectures given by experts about good scientific practice, intellectual property, academic publishing and more.
Scientifically, the TOPOCOM consortium made an important leap ahead and identified promising electric and magnetic model systems for unconventional computing. Protocols for material synthesis were developed, and we started to investigate the stability and dynamics of solitons in different materials, documented in internal reports to foster collaborations and exchange. Furthermore, we developed advanced tools to simulate electric and magnetic solitons, began to establish a universal mathematical framework, and performed first proof-of-concept experiments that demonstrate the general applicability of selected solitons for unconventional computing.