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KFM: Fachverband Kristalline Festkörper und deren Mikrostruktur
KFM 13: Focus: High-resolution Lithography and 3D Patterning (Part II) (joint session KFM/CPP/HL)
KFM 13.1: Vortrag
Donnerstag, 19. März 2020, 09:30–09:50, TOE 317
Curvilinear Magnetism: Fabrication and characterization — •Denys Makarov — Helmholtz-Zentrum Dresden-Rossendorf e.V., Institute of Ion Beam Physics and Materials Research, 01328 Dresden, Germany
Extending 2D structures into 3D space has become a general trend in multiple disciplines including electronics, photonics, and magnetics. This approach provides means to enrich conventional or to launch novel functionalities by tailoring curvature and 3D shape. We realize 3D curved magnetic thin films where new fundamental effects emerge from the interplay of the geometry of an object and topology of a magnetic sub-system [1]. The application potential of 3D magnetic architectures is explored for the realization of mechanically shapeable magnetoelectronics [2] for virtual and augmented reality appliances [3,4]. To advance in this research field, we develop novel theoretical methods [5-7], fabrication [1,8,9] and characterization techniques [8-11]. These topics will be addressed in the presentation.
[1] R. Streubel et al., J. Phys. D: Appl. Phys. 49, 363001 (2016). [2] D. Makarov et al., Appl. Phys. Rev. 3, 011101 (2016). [3] S. Cañón et al., Nature Electronics 1, 589 (2018) & Science Adv. 4, eaao2623 (2018). [4] J. Ge et al., Nature Comm. 10, 4405 (2019). [5] O. Volkov et al., PRL 123, 077201 (2019). [6] O. Volkov et al., Sci. Rep. 8, 866 (2018). [7] V. P. Kravchuk et al., PRL 120, 067201 (2018). [8] K. S. Das et al., Nano Let. 19, 6839 (2019). [9] M. Nord et al., Small 1904738 (2019). [10] R. Streubel et al., Nature Comm. 6, 7612 (2015). [11] T. Kosub et al., Nature Comm. 8, 13985 (2017).