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| MAGNETOFON – Ultrarýchla magneto-optoelektronika pre nedisipatívnu informačnú technológiu | |
| Ultrafast opto-magneto-electronics for non-dissipative information technology | |
| Program: | COST |
| Project leader: | Dr. Mruczkiewicz Michal |
| Project webpage: | https://www.cost.eu/actions/CA17123/#tabs|Name:overview |
| Duration: | 3.10.2018 – 2.10.2022 |
| ERA.Net RUS Plus – Terahertzová spintronika a magnonika feromagnetov a antiferomagnetov | |
| Terahertz spintronics and magnonics of ferro- and antiferromagnets | |
| Program: | ERANET |
| Project leader: | Dr. Mruczkiewicz Michal |
| Project webpage: | http://p3.snf.ch/Project-177550 |
| Duration: | 1.7.2018 – 30.6.2021 |
| Topologické spinové vlny | |
| Topological spin waves | |
| Program: | Other |
| Project leader: | Dr. Mruczkiewicz Michal |
| Duration: | 1.3.2019 – 30.5.2019 |
National
| Robustné spinové vlny pre budúce magnonické aplikácie | |
| Robust spin waves for future magnonic applications | |
| Program: | SRDA |
| Project leader: | Dr. Mruczkiewicz Michal |
| Annotation: | In this project we will focus on the theoretical and experimental investigation of spin wave dynamics at nanoscale. Spin wave is considered as candidate for an information carrier in ultrafast and energy efficient information processing devices. It is due the unique properties of spin waves, namely low heat dissipation, possible manipulation at nanoscale or reconfigurability. We are going to investigate specific spin wave systems, that can host robust, unidirectional and reprogrammable spin waves. Therefore, the results of this project will contribute to the field of modern magnetism, magnonics. |
| Duration: | 1.7.2020 – 30.6.2023 |
| Spinové vlny v exotických štruktúrach | |
| Waves in exotic spin textures | |
| Program: | SASPRO |
| Project leader: | Dr. Mruczkiewicz Michal |
| Annotation: | The research project is focused on thetheoretical investigation of collective excitations in various magnetic architectures and magnetic field configurations (spin textures). In particular, the dynamical properties of magnetic vortices and skyrmions will be studied in disks, nontrivial geometries and ultrathin films. Possible mechanisms of excitations (e.g., current or external field) will be considered and the possibility of experimental verification of numerically studied structures will be evaluated. An important part of the work will be dedicated to the study of collective skyrmion modes, a topic of research that is completely unexplored yet. On the basis of the obtained results a logic device will be proposed. |
| Duration: | 4.1.2016 – 31.12.2018 |