Zobrazeno 1 - 10
of 919
pro vyhledávání: '"Farle M."'
Autor:
Giron, S., Polin, N., Adabifiroozjaei, E., Yang, Y., Kovács, A., Almeida, T. P., Ohmer, D., Üstüner, K., Saxena, A., Katter, M., Radulov, I. A., Freysoldt, C., Dunin-Borkowski, R. E., Farle, M., Durst, K., Zhang, H., Alff, L., Ollefs, K., Xu, B. -X., Gutfleisch, O., Molina-Luna, L., Gault, B., Skokov, K. P.
Permanent magnets draw their properties from a complex interplay, across multiple length scales, of the composition and distribution of their constituting phases, that act as building blocks, each with their associated intrinsic properties. Gaining a
Externí odkaz:
http://arxiv.org/abs/2304.14958
Autor:
Shkodich, N.F., Smoliarova, T., Ali, H., Eggert, B., Rao, Z., Spasova, M., Tarasov, I., Wende, H., Ollefs, K., Gault, B., Farle, M.
Publikováno v:
In Acta Materialia 1 January 2025 284
Publikováno v:
EPJ Web of Conferences, Vol 75, p 08002 (2014)
Multifunctional magnetic nanoparticles are considered as promising candidates for various applications combining diagnosis, imaging and therapy. In the present work, we elaborate on the commercial colloidal solution “FluidMAG” (from Chemicell Gmb
Externí odkaz:
https://doaj.org/article/c58b9c2edf7b4e009f3c609c501b6bec
Autor:
Fries, M., Gottschall, T., Scheibel, F., Pfeuffer, L., Skokov, K. P., Skourski, I., Acet, M., Farle, M., Wosnitza, J., Gutfleisch, O.
Publikováno v:
Journal of Magnetism and Magnetic Materials; Volume 477, 1 May 2019, Pages 287-291
The adiabatic temperature change DTad of a Mn1.3Fe0.7P0.5Si0.55 Fe2P-type alloy was measured under different magnetic field-sweep rates from 0.93 Ts-1 to 2870 Ts-1. We find a field-sweep-rate independent magnetocaloric effect due to a partial alignme
Externí odkaz:
http://arxiv.org/abs/1907.02307
Autor:
Dey, J., Wójcik, M., Jędryka, E., Kalvig, R., Wiedwald, U., Salikhov, R., Farle, M., Rosén, J.
Publikováno v:
In Ceramics International 15 July 2023 49(14) Part B:24235-24238
Autor:
Schaffers, T., Feggeler, T., Pile, S., Meckenstock, R., Buchner, M., Spoddig, D., Ney, V., Farle, M., Wende, H., Wintz, S., Weigand, M., Ohldag, H., Ollefs, K., Ney, A.
Publikováno v:
Nanomaterials 9, 940 (2019)
Using a time-resolved detection scheme in scanning transmission X-ray microscopy (STXM) we measured element resolved ferromagnetic resonance (FMR) at microwave frequencies up to 10\,GHz and a spatial resolution down to 20\,nm at two different synchro
Externí odkaz:
http://arxiv.org/abs/1905.12497
Autor:
Papadopoulou, E., Tetos, N., Gyulasaryan, H., Chilingaryan, G., Ginoyan, A., Manukyan, A., Angelakeris, M., Farle, M., Spasova, M.
Publikováno v:
In Nano-Structures & Nano-Objects April 2023 34
Autor:
Gyulasaryan, H., Avakyan, L., Emelyanov, A., Sisakyan, N., Kubrin, S., Srabionyan, V., Ovcharov, A., Dannangoda, C., Bugaev, L., Sharoyan, E., Angelakeris, M., Farle, M., Spasova, M., Martirosyan, K., Manukyan, A.
Publikováno v:
In Journal of Magnetism and Magnetic Materials 1 October 2022 559
We present a numerical approach to simulate the Ferromagnetic Resonance (FMR) of micron and nanosized magnetic elements by a micromagnetic finite difference method. In addition to a static magnetic field a linearly polarized oscillating magnetic fiel
Externí odkaz:
http://arxiv.org/abs/1506.05292
Autor:
Barsukov, I., Fu, Yu, Safranski, C., Chen, Y. -J., Youngblood, B., Gonçalves, A. M., Spasova, M., Farle, M., Katine, J. A., Kuo, C. C., Krivorotov, I. N.
Publikováno v:
Appl. Phys. Lett. 106, 192407 (2015)
We study thin films and magnetic tunnel junction nanopillars based on Ta/Co$_{20}$Fe$_{60}$B$_{20}$/MgO multilayers by electrical transport and magnetometry measurements. These measurements suggest that an ultrathin magnetic oxide layer forms at the
Externí odkaz:
http://arxiv.org/abs/1504.06716