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arxiv: 1706.07695 · v1 · pith:3UMKZWQCnew · submitted 2017-06-23 · ⚛️ physics.optics · cond-mat.mes-hall

Nanoscale Magnetic Imaging using Circularly Polarized High-Harmonic Radiation

Ofer Kfir (1 , 2) , Sergey Zayko (1) , Christina Nolte (3) , Murat Sivis (1) , Marcel M\"oller (1) , Birgit Hebler (4) , Sri Sai Phani Kanth Arekapudi (4)
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Daniel Steil (3) Sascha Sch\"afer (1) Manfred Albrecht (4) Oren Cohen (2) Stefan Mathias (3) Claus Ropers (1 5) ((1) University of G\"ottingen 4th Physical Institute G\"ottingen Germany (2) Technion - Israel Institute of Technology Solid State Institute Physics Department Haifa Israel (3) University of G\"ottingen 1st Physical Institute (4) University of Augsburg Institute of Physics Augsburg (5) International Center for Advanced Studies of Energy Conversion (ICASEC) University of G\"ottingen Germany)
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classification ⚛️ physics.optics cond-mat.mes-hall
keywords imagingmagneticnanoscalecircularlyhigh-harmonicphasepolarizedquantitative
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This work demonstrates nanoscale magnetic imaging using bright circularly polarized high-harmonic radiation. We utilize the magneto-optical contrast of worm-like magnetic domains in a Co/Pd multilayer structure, obtaining quantitative amplitude and phase maps by lensless imaging. A diffraction-limited spatial resolution of 49 nm is achieved with iterative phase reconstruction enhanced by a holographic mask. Harnessing the unique coherence of high harmonics, this approach will facilitate quantitative, element-specific and spatially-resolved studies of ultrafast magnetization dynamics, advancing both fundamental and applied aspects of nanoscale magnetism.

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