Ptychographic imaging and micromagnetic modeling of thermal melting of nanoscale magnetic domains in antidot lattices | Zendy

Joachim Gräfe | Zendy; Maxim Skripnik | Zendy; Georg Dieterle | Zendy; Felix Haering | Zendy; Markus Weigand | Zendy; Iuliia Bykova | Zendy; Nick Träger | Zendy; Hermann Stoll | Zendy; Tolek Tyliszczak | Zendy; D. J. Vine | Zendy; P. Ziemann | Zendy; Ulf Wiedwald | Zendy; David A. Shapiro | Zendy; U. Nowak | Zendy; Gisela Schütz | Zendy; E. Goering | Zendy

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Ptychographic imaging and micromagnetic modeling of thermal melting of nanoscale magnetic domains in antidot lattices

Author(s) -

Joachim Gräfe,

Maxim Skripnik,

Georg Dieterle,

Felix Haering,

Markus Weigand,

Iuliia Bykova,

Nick Träger,

Hermann Stoll,

Tolek Tyliszczak,

D. J. Vine,

P. Ziemann,

Ulf Wiedwald,

David A. Shapiro,

U. Nowak,

Gisela Schütz,

E. Goering

Publication year - 2020

Publication title -

aip advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.421

H-Index - 58

ISSN - 2158-3226

DOI - 10.1063/5.0025784

Subject(s) - condensed matter physics , nanoscopic scale , micromagnetics , microscopy , magnetic force microscope , materials science , magnetic domain , resolution (logic) , magnetic storage , thermal , ptychography , thermal fluctuations , patterned media , scanning thermal microscopy , high resolution transmission electron microscopy , magnetization , transmission electron microscopy , optics , physics , magnetic field , nanotechnology , diffraction , thermodynamics , computer science , grain size , quantum mechanics , artificial intelligence , metallurgy

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