Michael Foerster
University of Mainz
111 Papers
268 Citations
Michael Foerster is an academic researcher from University of Mainz. The author has contributed to research in topics: Magnetic domain & Magnetization. The author has an hindex of 22, co-authored 91 publications. Previous affiliations of Michael Foerster include Institute of Cost and Management Accountants of Bangladesh.
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Papers
Room-temperature chiral magnetic skyrmions in ultrathin magnetic nanostructures
Olivier Boulle,Olivier Boulle,Jan Vogel,Jan Vogel,Hongxin Yang,Hongxin Yang,Stefania Pizzini,Stefania Pizzini,Dayane de Souza Chaves,Dayane de Souza Chaves,Andrea Locatelli,Tevfik Onur Menteş,Alessandro Sala,Liliana D. Buda-Prejbeanu,Liliana D. Buda-Prejbeanu,Olivier Klein,Olivier Klein,Mohamed Belmeguenai,Yves Roussigné,Andrey Stashkevich,S. M. Chérif,Lucia Aballe,Michael Foerster,Mairbek Chshiev,Mairbek Chshiev,Stéphane Auffret,Stéphane Auffret,Ioan Mihai Miron,Ioan Mihai Miron,Gilles Gaudin,Gilles Gaudin +30 more
TL;DR: This work reports on the observation of stable skyrmions in sputtered ultrathin Pt/Co/MgO nanostructures at room temperature and zero external magnetic field, substantiated by micromagnetic simulations and numerical models.
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In-Plane Magnetic Domains and Néel-like Domain Walls in Thin Flakes of the Room Temperature CrTe2 Van der Waals Ferromagnet.
Anike Purbawati,Johann Coraux,Jan Vogel,Abdellali Hadj-Azzem,NianJheng Wu,Nedjma Bendiab,David Jegouso,Julien Renard,Laëtitia Marty,Vincent Bouchiat,A. Sulpice,Lucia Aballe,Michael Foerster,Francesca Genuzio,Andrea Locatelli,Tevfik Onur Menteş,Zheng Vitto Han,Zheng Vitto Han,Zheng Vitto Han,Xingdan Sun,Xingdan Sun,Manuel Núñez-Regueiro,Nicolas Rougemaille +22 more
TL;DR: Combining element-selective x-ray magnetic imaging and magnetic force microscopy, at room temperature the magnetic domains and domains walls in micron-sized flakes of the CrTe2 van der Waals ferromagnet are resolved, showing that the Crte2 compound is magnetically soft.
100
Fast Domain Wall Motion Governed by Topology and Œrsted Fields in Cylindrical Magnetic Nanowires
M. Schöbitz,M. Schöbitz,A. De Riz,Steve W. Martin,Sebastian Bochmann,C. Thirion,Jan Vogel,Michael Foerster,Lucia Aballe,T. O. Menteş,Andrea Locatelli,Francesca Genuzio,S. Le-Denmat,Laurent Cagnon,Jean-Christophe Toussaint,D. Gusakova,Julien Bachmann,Julien Bachmann,Olivier Fruchart +18 more
TL;DR: Unprecedented velocities >600 m/s for DWs driven by spin-transfer torques in cylindrical nanowires made of a standard ferromagnetic material are reported.
56
Dynamically‐Driven Emergence in a Nanomagnetic System
Richard W. S. Dawidek,Thomas J. Hayward,Ian T. Vidamour,Thomas J. Broomhall,Guru Venkat,Mohanad Al Mamoori,Aidan Mullen,Stephan J. Kyle,Paul W. Fry,Nina-Juliane Steinke,Joshaniel F. K. Cooper,Francesco Maccherozzi,Sarnjeet S. Dhesi,Lucia Aballe,Michael Foerster,Jordi Prat,Eleni Vasilaki,Matthew O. A. Ellis,Dan A. Allwood +18 more
TL;DR: In this paper, the authors reported tunable emergent behaviors observed in domain wall (DW) populations of arrays of interconnected magnetic ring-shaped nanowires under an applied rotating magnetic field.
47
Strontium hexaferrite platelets: a comprehensive soft X-ray absorption and Mössbauer spectroscopy study.
Guiomar Delgado Soria,Petra Jenuš,J. F. Marco,Anna Mandziak,M. Sánchez-Arenillas,F. Moutinho,José Emilio Prieto,Pilar Prieto,Joan Cerdà,Cesar Tejera-Centeno,Silvia Gallego,Michael Foerster,Lucia Aballe,Manuel Valvidares,Hari Babu Vasili,Eva Pereiro,Adrián Quesada,J. de la Figuera +17 more
TL;DR: The Mössbauer spectra reveal a greater contribution of iron tetrahedral sites in platelets in comparison to pure bulk material, which is in agreement with micromagnetic simulations.