MAXYMUS
MAgnetic X-raY Microscope with UHV Spectroscopy
Publikationen
2024Ukleev, V.; Utesov, O.I.; Luo, C.; Radu, F.; Wintz, S.; Weigand, M.; Finizio, S.; Winter, M.; Tahn, A.; Rellinghaus, B.; Karube, K.; Tokura, Y.; Taguchi, Y.; White, J.S.: Competing anisotropies in the chiral cubic magnet Co8Zn8Mn4 unveiled by resonant x-ray magnetic scattering. , Physical Review B 109 (2024), p. 184415/1-7
doi: 10.1103/physrevb.109.184415
Birch, M.T.; Powalla, L.; Litzius, K.; Nehruji, V.; Hovorka, O.; Wintz, S.; Schulz, F.; Mayoh, D.A.; Balakrishnan, G.; Weigand, M.; Burghard, M.; Schütz, G.: Control of stripe, skyrmion and skyrmionium formation in the 2D magnet Fe3-xGeTe2 by varying composition. , 2D Materials 11 (2024), p. 025008/1-16
doi: 10.1088/2053-1583/ad1a6b
Urrestarazu Larrañaga, J.; Sisodia, N.; Pham, V.T.; Di Manici, I.; Masseboeuf, A.; Garello, K.; Disdier, F.; Fernandez, B.; Wintz, S.; Weigand, M.; Belmeguenai, M.; Pizzini, S.; Sousa, R.; Buda-Prejbeanu, L.; Gaudin, G.; Boulle, O.: Electrical detection and nucleation of a magnetic skyrmion in a magnetic tunnel junction observed via operando magnetic microscopy. , Nano Letters 24 (2024), p. 3557-3565
doi: 10.1021/acs.nanolett.4c00316
Birch, M.T.; Yasin, F.S.; Litzius, K.; Powalla, L.; Wintz, S.; Schulz, F.; Kossak, A.E.; Weigand, M.; Scholz, T.; Lotsch, B.V.; Schütz, G.; Yu, X.Z.; Burghard, M.: Influence of Magnetic Sublattice Ordering on Skyrmion Bubble Stability in 2D Magnet Fe5GeTe2. , ACS Nano 18 (2024), p. 18246–18256
doi: 10.1021/acsnano.4c00853
Wu, B.; Amargianou, F.; Förster, J.-D.; Pöhlker, C.; Rauch, T.G.; Wong, D.; Schulz, C.; Seidel, R.; Weigand, M.; Oschatz, M.; Petit, T.: Water Confinement in Nitrogen-Rich Nanoporous Carbon Materials Revealed by In Situ Scanning Transmission X-Ray Microscopy. , Advanced Functional Materials 34 (2024), p. 2406528/1-9
doi: 10.1002/adfm.202406528
2023
Kern, Lisa-Marie: Controlled Manipulation of Magnetic Skyrmions: Generation, Motion, and Dyanmics. , Technische Universität Berlin Dissertation, 2023
doi: 10.14279/depositonce-18322
Luo, C.; Chen, K.; Ukleev, V.; Wintz, S.; Weigand, M.; Abrudan, R.M.; Prokes, K.; Radu, F.: Direct observation of Neel-type skyrmions and domain walls in a ferrimagnetic DyCo3 thin film. , Communications Physics 6 (2023), p. 218/1-8
doi: 10.1038/s42005-023-01341-7
Schulz, F.; Litzius, K.; Powalla, L.; Birch, M.T.; Gallardo, R.A.; Satheesh, S.; Weigand, M.; Scholz, T.; Lotsch, B.V.; Schütz, G.; Burghard, M.; Wintz, S.: Direct Observation of Propagating Spin Waves in the 2D van der Waals Ferromagnet Fe5GeTe2. , Nano Letters 23 (2023), p. 10126-10131
doi: 10.1021/acs.nanolett.3c02212
Talapatra, A.; Qin, H.; Schulz, F.; Yao, L.; Flajsman, L.; Weigand, M.; Wintz, S.; van Dijken, S.: Imaging of short-wavelength spin waves in a nanometer-thick YIG/Co bilayer. , Applied Physics Letters 122 (2023), p. 202404/1-6
doi: 10.1063/5.0149583
Gerlinger, Kathinka Sandrine: Nanometer scale observation of magnetization textures induced by ultrashort laser pulses. , Technische Universität Berlin Dissertation, 2023
doi: 10.14279/depositonce-17088
Gerlinger, K.; Pfau, B.; Hennecke, M.; Kern, L.M.; Will, I; Noll, T.; Weigand, M.; Gräfe, J.; Träger, N.; Schneider, M.; Günther, C.M.; Engel, D.; Schütz, G.; Eisebitt, S.: Pump-probe x-ray microscopy of photo-induced magnetization dynamics at MHz repetition rates. , Structural Dynamics 10 (2023), p. 024301/1-8
doi: 10.1063/4.0000167
Pile, S.; Ney, A.; Lenz, K.; Narkowicz, R.; Lindner, J.; Wintz, S.; Förster, J.; Mayr, S.; Weigand, M.: Quantified spin-wave symmetry in rectangular permalloy microstrips investigated using TR-STXM, FMR and Mumax3. , In: 2023 IEEE International Magnetic Conference - Short Papers, INTERMAG Short Papers - proceedings : Sendai, Japan, 15-19 May 2023Piscataway, NJ: IEEE, 2023. - ISBN 979-8-3503-3836-2, p. 1-2
doi: 10.1109/intermagshortpapers58606.2023.10228677
Pile, S.; Ney, A.; Lenz, K.; Narkowicz, R.; Lindner, J.; Wintz, S.; Forster, J.; Mayr, S.; Weigand, M.: Quantifying the Spin-Wave Asymmetry in Single and Double Rectangular Ni80Fe20 Microstrips by TR-STXM, FMR, and Micromagnetic Simulations. , IEEE Transactions on Magnetics 59 (2023), p. 1300905/1-5
doi: 10.1109/tmag.2023.3292746
Schulz, F.; Groß, F.; Förster, J.; Mayr, S.; Weigand, M.; Goering, E.; Gräfe, J.; Schütz, G.; Wintz, S.: Realization of a magnonic analog adder with frequency-division multiplexing. , AIP Advances 13 (2023), p. 015115/1-7
doi: 10.1063/5.0120826
Powalla, L.; Birch, M.T.; Litzius, K.; Wintz, S.; Yasin, F.S.; Turnbull, L.A.; Schulz, F.; Mayoh, D.A.; Balakrishnan, G.; Weigand, M.; Yu, X.; Kern, K.; Schütz, G.; Burghard, M.: Seeding and Emergence of Composite Skyrmions in a van der Waals Magnet. , Advanced Materials 35 (2023), p. 2208930/1-9
doi: 10.1002/adma.202208930
Powalla, L.; Birch, M.T.; Litzius, K.; Wintz, S.; Satheesh, S.; Weigand, M.; Goering, E.; Schütz, G.; Burghard, M.: Skyrmion and skyrmionium formation in the two-dimensional magnet Cr2Ge2Te6. , Physical Review B 108 (2023), p. 214417/1-9
doi: 10.1103/physrevb.108.214417
Feggeler, T.; Lill, J.; Günzing, D.; Meckenstock, R.; Spoddig, D.; Efremova, M.V.; Wintz, S.; Weigand, M.; Zingsem, B.W.; Farle, M.; Wende, H.; Ollefs, K.J.; Ohldag, H.: Spatially-resolved dynamic sampling of different phasic magnetic resonances of nanoparticle ensembles in a magnetotactic bacterium Magnetospirillum magnetotacticum. , New Journal of Physics 25 (2023), p. 043010/1-7
doi: 10.1088/1367-2630/acc81f
Körber, Lukas: Spin waves in curved magnetic shells. , Dissertation, Technische Universität Dresden, 2023
doi: 10.25368/2023.131
Schulz, Frank: Static and dynamic investigation of magnonic systems: materials, applications and modeling. , Universität Stuttgart Dissertation, 2023
doi: 10.18419/opus-13032
2022
Groß, F.; Träger, N.; Schulz, F.; Weigand, M.; Dippon, T.; Gräfe, J.: A high frequency builder software for arbitrary radio frequency signals. , Review of Scientific Instruments 93 (2022), p. 034704/1-6
doi: 10.1063/5.0082934
Sala, G.; Lambert, C.-H.; Finizio, S.; Raposo, V.; Krizakova, V.; Krishnaswamy, G.; Weigand, M.; Raabe, J.; Rossell, M.D.; Martinez, E.; Gambardella, P.: Asynchronous current-induced switching of rare-earth and transition-metal sublattices in ferrimagnetic alloys. , Nature Materials 21 (2022), p. 640–646
doi: 10.1038/s41563-022-01248-8
Data-doi: 10.3929/ethz-b-000482072
Wu, H.; Zhang, H.; Wang, B.; Gross, F.; Yang, C.-Y.; Li, G.; Guo, C.; He, H.; Wong, K.; Wu, D.; Han, X.; Lai, C.-H.; Graefe, J.; Cheng, R.; Wang, K. L.: Current-induced Neel order switching facilitated by magnetic phase transition. , Nature Communications 13 (2022), p. 1629/1-7
doi: 10.1038/s41467-022-29170-2
Kern, L.M.; Pfau, B.; Deinhart, V.; Schneider, M.; Klose, C.; Gerlinger, K.; Wittrock, S.; Engel, D.; Will, I.; Günther, C.M.; Liefferink, R.; Mentink, J.H.; Wintz, S.; Weigand, M.; Huang, M.J.; Battistelli, R.; Metternich, D.; Büttner, F.; Höflich, K.; Eisebitt, S.: Deterministic Generation and Guided Motion of Magnetic Skyrmions by Focused He+-Ion Irradiation. , Nano Letters 22 (2022), p. 4028-4035
doi: 10.1021/acs.nanolett.2c00670
Groß, Felix: Entwicklung von Methoden und Bausteinen zur Realisierung Komplexer Magnonischer Systeme. , Dissertation, 2022, Universität Stuttgart, 2022
Ahlberg, M.; Chung, S.; Jiang, S.; Frisk, A.; Khademi, M.; Khymyn, R.; Awad, A.A.; Le, Q.T.; Mazraati, H.; Mohseni, M.; Weigand, M.; Bykova, I.; Groß, F.; Goering, E.; Schütz, G.; Gräfe, J.; Åkerman, J.: Freezing and thawing magnetic droplet solitons. , Nature Communications 13 (2022), p. 2462/1-7
doi: 10.1038/s41467-022-30055-7
Data-doi: 10.6084/m9.figshare.19493789
Sanli, U.T.; Messer, T.; Weigand, M.; Lötgering, L.; Schütz, G.; Wegener, M.; Kern, C.; Keskinbora, K.: High‐Resolution Kinoform X-Ray Optics Printed via 405 nm 3D Laser Lithography. , Advanced Materials Technologies 7 (2022), p. 2101695/1-10
doi: 10.1002/admt.202101695
Birch, M.T.; Powalla, L.; Wintz, S.; Hovorka, O.; Litzius, L.; Loudon, J.C.; Turnbull, L.A.; Nehruji, V.; Son, K.; Bubeck, C.; Rauch, T.G.; Weigand, M.; Georing, E.; Burghard, M.; Schütz, G.: History-dependent domain and skyrmion formation in 2D van der Waals magnet Fe3GeTe2. , Nature Communications 13 (2022), p. 3035/1-11
doi: 10.1038/s41467-022-30740-7
Data-doi: 10.5281/zenodo.6346695
Gross, F.; Weigand, M.; Gangwar, A.; Werner, M.; Schütz, G.; Goering, E.J.; Back, C.H.; Gräfe, J.: Imaging magnonic frequency multiplication in nanostructured antidot lattices. , Physical Review B 106 (2022), p. 014426/1-9
doi: 10.1103/physrevb.106.014426
Marcano, L.; Orue, I.; Gandia, D.; Gandarias, L.; Weigand, M.; Abrudan, R.M.; Garcia-Prieto, A.; Garcia-Arribas, A.; Muela, A.; Fdez-Gubieda, M.L.; Valencia, S.: Magnetic Anisotropy of Individual Nanomagnets Embedded in Biological Systems Determined by Axi-asymmetric X-ray Transmission Microscopy. , ACS Nano 16 (2022), p. 7398–7408
doi: 10.1021/acsnano.1c09559
Pile, S.; Stienen, S.; Lenz, K.; Narkovicz, R.; Wintz, S.; Förster, J.; Mayr, S.; Buchner, M.; Weigand, M.; Ney, V.; Lindner, J.; Ney, A.: Nonstationary spin waves in a single rectangular permalloy microstrip under uniform magnetic excitation. , Physical Review B 105 (2022), p. 094415/1-11
doi: 10.1103/PhysRevB.105.094415
Fürsich, K.; Pons, R.; Bluschke, M.; Ortiz, R.A.; Wintz, S.; Schierle, E.; Weigand, M.; Logvenov, G.; Schütz, G.; Keimer, B.: Oxygen Hole Character and Lateral Homogeneity in PrNiO2+δ Thin Films. , Frontiers in Physics 9 (2022), p. 810220/1-7
doi: 10.3389/fphy.2021.810220
Wittmann, A.; Gomonay, O.; Litzius, K.; Kaczmarek, A.; Kossak, A.E.; Wolf, D.; Lubk, A.; Johnson, T.N.; Tremsina, E.A.; Churikova, A.; Büttner, F.; Wintz, S.; Mawass, M.-A.; Weigand, M.; Kronast, F.; Scipioni, L.; Shepard, A.; Newhouse-Illige, T.; Greer, J.A.; Schütz, G.; Birge, N.O.; Beach, G.S.D.: Role of substrate clamping on anisotropy and domain structure in the canted antiferromagnet α-Fe2O3. , Physical Review B 106 (2022), p. 224419/1-7
doi: 10.1103/PhysRevB.106.224419
Powalla, L.; Birch, M.T.; Litzius, K.; Wintz, S.; Schulz, F.; Weigand, M.; Scholz, T.; Lotsch, B.V.; Kern, K.; Schütz, G.; Burghard, M.: Single Skyrmion Generation via a Vertical Nanocontact in a 2D Magnet-Based Heterostructure. , Nano Letters 22 (2022), p. 9236–9243
doi: 10.1021/acs.nanolett.2c01944
Juge, R.; Sisodia, N.; Larrañaga, J.U.; Zhang, Q.; Pham, V.T.; Rana, K.G.; Sarpi, B.; Mille, N.; Stanescu, S.; Belkhou, R.; Mawass, M.A.; Novakovic-Marinkovic, N.; Kronast, F.; Weigand, M.; Gräfe, J.; Wintz, S.; Finizio, S.; Raabe, J.; Aballe, L.; Foerster, M.; Belmeguenai, M.; Buda-Prejbeanu, L.D.; Pelloux-Prayer, J.; Shaw, J.M.; Nembach, H.T.; Ranno, L.; Gaudin, G.; Boulle, O.: Skyrmions in synthetic antiferromagnets and their nucleation via electrical current and ultra-fast laser illumination. , Nature Communications 13 (2022), p. 4807/1-9
doi: 10.1038/s41467-022-32525-4
Data-doi: 10.17605/OSF.IO/R4V5M
Kern, L.-M.; Pfau, B.; Schneider, M.; Gerlinger, K.; Deinhart, V.; Wittrock, S.; Sidiropoulos, T.; Engel, D.; Will, I.; Günther, C. M.; Litzius, K.; Wintz, S.; Weigand, M.; Büttner, F.; Eisebitt, S.: Tailoring optical excitation to control magnetic skyrmion nucleation. , Physical Review B 106 (2022), p. 054435/1-10
doi: 10.1103/PhysRevB.106.054435
Weigand, M.; Wintz, S.; Gräfe, J.; Noske, M.; Stoll, H.; Van Waeyenberge, B.; Schütz, G.: TimeMaxyne: A shot-noise limited, time-resolved pump-and-probe acquisition system capable of 50 GHz frequencies for synchrotron-based X-ray microscopy. , Crystals (Basel) 12 (2022), p. 1029/1-13
doi: 10.3390/cryst12081029
Birch, M.; Cortés-Ortuño, D.; Litzius, K.; Wintz, S.; Schulz, F.; Weigand, M.; Mayoh, D.A.; Balakrishnan, G.; Hatton, P.D.; Schütz, G.: Toggle-like current-induced Bloch point dynamics of 3D skyrmion strings in a room temperature nanowire. , Nature Communications 13 (2022), p. 3620/1-8
doi: 10.1038/s41467-022-31335-y
Data-doi: 10.5281/zenodo.6501740
Baluktsian, Margarita: Wave front shaping with zone plates: Fabrication and Characterization of lenses for soft x-ray applications from standard to singular optics. , Dissertation, Universität Stuttgart, 2022, 2022
2021
Traeger, N.; Lisiecki, F.; Lawitzki, R.; Weigand, M.; Glowinski, H.; Schuetz, G.; Schmitz, G.; Kuswik, P.; Krawczyk, M.; Graefe, J.; Gruszecki, P.: Competing spin wave emission mechanisms revealed by time-resolved x-ray microscopy. , Physical Review B 103 (2021), p. 014430/1-8
doi: 10.1103/physrevb.103.014430
Ortiz Hernández, N.; Parchenko, S.; Mardegan, J.R.L.; Porer, M.; Schierle, E.; Weschke, E.; Ramakrishnan, M.; Radovic, M.; Heuver, J.A.; Noheda, B.; Daffé, N.; Dreiser, J.; Ueda, H.; Staub, U.: Magnetic field dependent cycloidal rotation in pristine and Ge-doped CoCr2O4. , Physical Review B 103 (2021), p. 085123/1-10
doi: 10.1103/physrevb.103.085123
Groß, F.; Träger, N.; Gräfe, J.: MIEP – A time-resolved X-ray image evaluation program. , SoftwareX 15 (2021), p. 100705/1-5
doi: 10.1016/j.softx.2021.100705
Park, T.E.; Peng, L.; Liang, J.; Hallal, A.; Yasin, F.S.; Zhang, X.; Song, K.M.; Kim, S.J.; Kim, K.; Weigand, M.; Schütz, G.; Finizio, S.; Raabe, J.; Garcia, K.; Xia, J.; Zhou, Y.; Ezawa, M.; Liu, X.; Chang, J.; Koo, H.C.; Kim, Y.D.; Chshiev, M.; Fert, A.; Yang, H.; Yu, X.; Woo, S.: Néel-type skyrmions and their current-induced motion in van der Waals ferromagnet-based heterostructures. , Physical Review B 103 (2021), p. 104410/1-11
doi: 10.1103/PhysRevB.103.104410
Groß, F.; Zelent, M.; Gangwar, A.; Mamica, S.; Gruszecki, P.; Werner, M.; Schütz, G.; Weigand, M.; Goering, E. J.; Back, C. H.; Krawczyk, M.; Gräfe, J.: Phase resolved observation of spin wave modes in antidot lattices. , Applied Physics Letters 118 (2021), p. 232403/1-7
doi: 10.1063/5.0045142
Träger, N.; Gruszecki, P.; Lisiecki, F.; Gross, F.; Förster, J.; Weigand, M.; Glowinski, H.; Kuswik, P.; Dubowik, J.; Schütz, G.; Krawczyk, M.; Gräfe, J.: Real-Space Observation of Magnon Interaction with Driven Space-Time Crystals. , Physical Review Letters 126 (2021), p. 057201/1-6
doi: 10.1103/physrevlett.126.057201
Träger, Nick-André: Röntgenmikroskopische Untersuchung der Magnetisierungsdynamik in nanoskaligen magnonischen Wellenleiterstrukturen. , Universität Stuttgart, Diss., 2021
Mayr, S.; Flajsman, L.; Finizio, S.; Hrabec, A.; Weigand, M.; Förster, J.; Stoll, H.; Heyderman, L.J.; Urbanek, M.; Wintz, S.; Raabe, J.: Spin-Wave Emission from Vortex Cores under Static Magnetic Bias Fields. , Nano Letters 21 (2021), p. 1584–1590
doi: 10.1021/acs.nanolett.0c03740
Koerber, L.; Zimmermann, M.; Wintz, S.; Finizio, S.; Kronseder, M.; Bougeard, D.; Dirnberger, F.; Weigand, M.; Raabe, J.; Otalora, J.A.; Schultheiss, H.; Josten, E.; Lindner, J.; Kezsmarki, I.; Back, C.H.; Kakay, A.: Symmetry and curvature effects on spin waves in vortex-state hexagonal nanotubes. , Physical Review B 104 (2021), p. 184429/1-10
doi: 10.1103/physrevb.104.184429
Mayr, S.; Finizio, S.; Reuteler, J.; Stutz, S.; Dubs, C.; Weigand, M.; Hrabec, A.; Raabe, J.; Wintz, S.: Xenon Plasma Focused Ion Beam Milling for Obtaining Soft X-ray Transparent Samples. , Crystals (Basel) 11 (2021), p. 546/1-7
doi: 10.3390/cryst11050546
Mayr, Sina: X-ray imaging of spin-wave dynamics: from ferromagnetic to antiferromagnetic systems. , ETH Zürich, 2021
doi: 10.3929/ethz-b-000530576
Förster, J.-D.; Bykova, I.; Macholdt, D.S.; Jochum, K.P.; Kappl, M.; Kilcoyne, A.L. D.; Müller, M.; Sorowka, A.; Weber, B.; Weigand, M.; Schütz, G.; Andreae, M.O.; Pöhlker, C.: X-Ray Microspectroscopy and Ptychography on Nanoscale Structures in Rock Varnish. , The Journal of Physical Chemistry C 125 (2021), p. 22684-22697
doi: 10.1021/acs.jpcc.1c03600
2020
Simmendinger, J.; Bihler, M.; Ionescu, A.M.; Weigand, M.; Schütz, G.; Albrecht, J.: Bound and stable vortex–antivortex pairs in high-Tc superconductors. , New Journal of Physics 22 (2020), p. 123035/1-7
doi: 10.1088/1367-2630/abd123
Groß, F.; Zelent, M.; Träger, N.; Förster, J.; Sanli, U.T.; Sauter, R.; Decker, M.; Back, C.H.; Weigand, M.; Keskinbora, K.; Schütz, G.; Krawczyk, M.; Gräfe, J.: Building blocks for magnon optics: Emission and conversion of short spin waves. , ACS Nano 14 (2020), p. 17184-17193
doi: 10.1021/acsnano.0c07076
Lötgering, Lars: Computational imaging methods for visible light and X-ray microscopy. , Berlin, Technische Universität, Diss., 2020
Guang, Y.; Bykova, Iu.; Liu, Y.; Yu, G.; Goering, E.; Weigand, M.; Gräfe, J.; Kim, S.K.; Zhang, J.; Zhang, H.; Yan, Z.; Li, W.; Wan, C.; Feng, J.; Wang, X.; Guo, C.; Wie, H.; Peng, Y.; Tserkovnyak, Y.; Han, X.; Schütz, G.: Creating a 100-nm-scale zero-field skyrmion in exchange-biased multilayers through X-ray illumination. , Nature Communications 11 (2020), p. 949/1-6
doi: 10.1038/s41467-020-14769-0
Traeger, N.; Gruszecki, P.; Lisiecki, F.; Gross, F.; Foerster, J.; Weigand, M.; Glowinski, H.; Kuswik, P.; Dubowik, J.; Krawczyk, M.; Graefe, J.: Demonstration of k-vector selective microscopy for nanoscale mapping of higher order spin wave modes. , Nanoscale 12 (2020), p. 17238-17244
doi: 10.1039/d0nr02132f
Träger, N.; Gruszecki, P.; Lisiecki, F.; Förster, J.; Weigand, M.; Wintz, S.; Stoll, H.; Glowinski, H.; Piotr, K.; Krawczyk, M.; Gräfe, J.: Direct imaging of high-frequency multimode spin wave propagation in cobalt-iron waveguides using X-ray microscopy beyond 10 GHz. , Physica Status Solidi - Rapid Research Letters 14 (2020), p. 2000373/1-5
doi: 10.1002/pssr.202000373
Graefe, J.; Gruszecki, P.; Zelent, M.; Decker, M.; Keskinbora, K.; Noske, M.; Gawronski, P.; Stoll, H.; Weigand, M.; Krawczyk, M.; Back, C.H.; Goering, E.J.; Schuetz, G.: Direct observation of spin-wave focusing by a Fresnel lens. , Physical Review B 102 (2020), p. 024420/1-10
doi: 10.1103/physrevb.102.024420
Digernes, E.; Leliaert, J.; Weigand, M.; Folven, E.; Van Waeyenberge, B.: Direct observation of temperature dependent vortex dynamics in a La0.7Sr0.3MnO3 micromagnet. , Physical Review Research 2 (2020), p. 043429/1-7
doi: 10.1103/PhysRevResearch.2.043429
Feggeler, Thomas: Element-specific detection of magnetization dynamics using Scanning Transmission X-ray Microscopy. , Duisburg, Essen, Universität Duisburg-Essen, Diss., 2020
Wu, H.; Groß, F.; Dai, B.; Lujan, D.; Razavi, S.A.; Zhang, P.; Liu, Y.; Sobotkiewich, K.; Förster, J.; Weigand, M.; Schütz, G.; Li, X.; Gräfe, J.; Wang, K.L.: Ferrimagnetic Skyrmions in Topological Insulator/Ferrimagnet Heterostructures. , Advanced Materials 32 (2020), p. 2003380/1-7
doi: 10.1002/adma.202003380
Loetgering, L.; Baluktsian, M.; Keskinbora, K.; Horstmeyer, R.; Wilhein, T.; Schütz, G.; Eikema, K.S.E.; Witte, S.: Generation and characterization of focused helical x-ray beams. , Science Advances 6 (2020), p. eaax8836/1-7
doi: 10.1126/sciadv.aax8836
Simmendinger, J.; Weigand, M.; Schütz, G.; Albrecht, J.: Magnetic flux penetration into micron-sized superconductor/ferromagnet bilayers. , Superconductor Science & Technology 33 (2020), p. 025015/1-7
doi: 10.1088/1361-6668/ab54ab
Simmendinger, Julian: Magnetische Röntgenmikroskopie zur Untersuchung des lokalen Stromtransports in Supraleitern. , Universität Stuttgart, 2020
Förster, J.-D.; Gurk, C.; Lamneck, M.; Tong, H.; Ditas, F.; Steimer, S.S.; Alpert, P.A.; Ammann, M.; Raabe, J.; Weigand, M.; Watts, B.; Pöschl, U.; Andreae, M.O.; Pöhlker, C.: MIMiX: a Multipurpose In situ Microreactor system for X-ray microspectroscopy to mimic atmospheric aerosol processing. , Atmospheric Measurement Techniques 13 (2020), p. 3717–3729
doi: 10.5194/amt-13-3717-2020
Baumgaertl, K.; Gräfe, J.; Che, P.; Mucchietto, A.; Förster, J.; Träger, N.; Bechtel, M.; Weigand, M.; Schütz, G.; Grundler, D.: Nanoimaging of ultrashort magnon emission by ferromagnetic grating couplers at GHz frequencies. , Nano Letters 20 (2020), p. 7281-7286
doi: 10.1021/acs.nanolett.0c02645
Chen, K.; Lott, D.; Philippi-Kobs, A.; Weigand, M.; Luo, C.; Radu, F.: Observation of compact ferrimagnetic skyrmions in DyCo3 film. , Nanoscale 12 (2020), p. 18137-18143
doi: 10.1039/d0nr02947e
Graefe, J.; Skripnik, M.; Dieterle, G.; Haering, F.; Weigand, M.; Bykova, I.; Traeger, N.; Stoll, H.; Tyliszczak, T.; Vine, D.; Ziemann, P.; Wiedwald, U.; Shapiro, D.; Nowak, U.; Schuetz, G.; Goering, E.J.: Ptychographic imaging and micromagnetic modeling of thermal melting of nanoscale magnetic domains in antidot lattices. , AIP Advances 10 (2020), p. 125122/1-5
doi: 10.1063/5.0025784
Birch, M.T.; Cortés-Ortuño, D.; Turnbull, L.A.; Wilson, M.N.; Groß, F.; Träger, N.; Laurenson, A.; Bukin, N.; Moody, S.H.; Weigand, M.; Schütz, G.; Popescu, H.; Fan, R.; Steadman, P.; Verezhak, J.A.T.; Balakrishnan, G.; Loudon, J.C.; Twitchett-Harrison, A.C.; Hovorka, O.; Fangohr, H.; Ogrin, F.Y.; Gräfe, J.; Hatton, P.D.: Real-space imaging of confined magnetic skyrmion tubes. , Nature Communications 11 (2020), p. 1726/1-8
doi: 10.1038/s41467-020-15474-8
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2018
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2017
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2015
Behncke, C.; Haenze, M.; Adolff, C.F.; Weigand, M.; Meier, G.: Band structure engineering of two-dimensional magnonic vortex crystals. , Physical Review B 91 (2015), p. 224417/1-5
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2014
Stahl, C.; Audehm, P.; Gräfe, J.; Ruoß, S.; Weigand, M.; Schmidt, M.; Treiber, S.; Bechtel, M.; Goering, E.; Schütz, G.; Albrecht, J.: Detecting magnetic flux distributions in superconductors with polarized x rays. , Physical Review B 90 (2014), p. 104515/1-7
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Keskinbora, K.; Robisch, A.-L.; Mayer, M.; Sanli, U.; Grévent, C.; Wolter, C.; Weigand, M.; Szeghalmi, A.; Knez, M.; Salditt, T.; Schütz, G.: Multilayer Fresnel zone plates for high energy radiation resolve 21 nm features at 1.2 keV. , Optics Express 22 (2014), p. 18440-18453
doi: 10.1364/OE.22.018440
Pedersen, E.B.L.; Tromholt, T.; Madsen, M.V.; Bottiger, A.P. L.; Weigand, M.; Krebs, F.C.; Andreasen, J.W.: Spatial degradation mapping and component-wise degradation tracking in polymer-fullerene blends. , Journal of Materials Chemistry C 2 (2014), p. 5176-5182
doi: 10.1039/c4tc00028e
Kim, J.-S.; Mawass, M.-A.; Bisig, A.; Krueger, B.; Reeve, R. M.; Schulz, T.; Buettner, F.; Yoon, J.; You, C.-Y.; Weigand, M.; Stoll, H.; Schuetz, G.; Swagten, H.J.M.; Koopmans, B.; Eisebitt, S.; Klaeui, M.: Synchronous precessional motion of multiple domain walls in a ferromagnetic nanowire by perpendicular field pulses. , Nature Communications 5 (2014), p. 3429/-8
doi: 10.1038/ncomms4429
Hänze, M.; Adolff, C.F.; Weigand, M.; Meier, G.: Tunable eigenmodes of coupled magnetic vortex oscillators. , Applied Physics Letters 104 (2014), p. 182405/1-4
doi: 10.1063/1.4875618
Noske, M.; Gangwar, A.; Stoll, H.; Kammerer, M.; Sproll, M.; Dieterle, G.; Weigand, M.; Fähnle, M.; Woltersdorf, G.; Back, C.H.; Schütz, G.: Unidirectional sub-100 ps magnetic vortex core reversal. , Physical Review B 90 (2014), p. 104415/1-6
doi: 10.1103/PhysRevB.90.104415
2013
Bisig, A; Staerk, M; Mawass, M; Moutafis, C; Rhensius, J; Heidler, J; Buettner, F; Noske, M; Weigand, M; Eisebitt, S; Tyliszczak, T; Van Waeyenberge, B; Stoll, H; Schuetz, G; Klaeul, M: Correlation between spin structure oscillations and domain wall velocities. , Nature Communications 4 (2013), p. 2328/1-8
doi: 10.1038/ncomms3328
Keskinbora, K.; Grevent, C.; Bechtel, M.; Weigand, M.; Goering, E.; Nadzeyka, A.; Peto, L.; Rehbein, S.; Schneider, G.; Follath, R.; Vila-Comamala, J.; Yan, H.; Schütz, G.: Ion beam lithography for Fresnel zone plates in X-ray microscopy. , Optics Express 21 (2013), p. 11747-11756
doi: 10.1364/OE.21.011747
Martens, M.; Kamionka, T.; Weigand, M.; Stoll, H.; Tyliszczak, T.; Meier, G.: Phase diagram for magnetic vortex core switching studied by ferromagnetic Absorption spectroscopy and time-resolved transmission x-ray microscopy. , Physical Review B 87 (2013), p. 054426/1-5
doi: 10.1103/PhysRevB.87.054426
Keskinbora, K.; Grevent, C.; Eigenthaler, U.; Weigand, M.; Schütz, G.: Rapid Prototyping of Fresnel Zone Plates via Direct Ga+ Ion Beam Lithography for High-Resolution X-ray Imaging. , ACS Nano 7 (2013), p. 9788-9797
doi: 10.1021/nn403295k
Adolff, C.F.; Hänze, M.; Vogel, A.; Weigand, M.; Martens, M.; Meier, G.: Self-organized state formation in magnonic vortex crystals. , Physical Review B 88 (2013), p. 224425/1-5
doi: 10.1103/PhysRevB.88.224425
Stein, F.-U.; Bocklage, L.; Weigand, M.; Meier, G.: Time-resolved imaging of nonlinear magnetic domain-wall dynamics in ferromagnetic nanowires. , Scientific Reports 3 (2013), p. 1737/1-4
doi: 10.1038/srep01737
Han, D.-S.; Vogel, A.; Jung, H.; Lee, K.-S.; Weigand, M.; Stoll, H.; Schuetz, G.; Fischer, P.; Meier, G.; Kim, S.-K.: Wave modes of collective vortex gyration in dipolar-coupled-dot-array magnonic crystals. , Scientific Reports 3 (2013), p. 2262/1-7
doi: 10.1038/srep02262
2012
Poehlker, C.; Wiedemann, K.T.; Sinha, B.; Shiraiwa, M.; Gunthe, S.S.; Smith, M.; Su, H.; Artaxo, P.; Chen, Q.; Cheng, Y.; Elbert, W.; Gilles, M.K.; Kilcoyne, A.L.D.; Moffet, R.C.; Weigand, M.; Martin, S.T.; Poeschl, U.; Andreae, M.O.: Biogenic Potassium Salt Particles as Seeds for Secondary Organic Aerosol in the Amazon. , Science 337 (2012), p. 1075-1078
doi: 10.1126/science.1223264
Kammerer, M.; Stoll, H.; Noske, M.; Sproll, M.; Weigand, M.; Illg, C.; Woltersdorf, G.; Fähnle, M.; Back, C.; Schütz, G.: Fast spin-wave-mediated magnetic vortex core reversal. , Physical Review B 86 (2012), p. 134426/1-5
doi: 10.1103/PhysRevB.86.134426
Nadzeyka, A.; Peto, L.; Bauerdick, S.; Mayer, M.; Keskinbora, K.; Grévent, C.; Weigand, M.; Hirscher, M.; Schütz, G.: Ion beam lithography for direct patterning of high accuracy large area X-ray elements in gold on membranes. , Microelectronic Engineering 98 (2012), p. 198-201
doi: 10.1016/j.mee.2012.07.036
Nolle, D.; Weigand, M.; Audehm, P.; Goering, E.; Wiesemann, U.; Wolter, C.; Nolle, E.; Schütz, G.: Note: Unique characterization possibilities in the ultra high vacuum scanning transmission x-ray microscope (UHV-STXM) "MAXYMUS" using a rotatable permanent magnetic field up to 0.22 T. , Review of Scientific Instruments 83 (2012), p. 046112/1-3
doi: 10.1063/1.4707747
Langner, H.H.; Kamionka, T.; Martens, M.; Weigand, M.; Adolff, C.F.; Merkt, U.; Meier, G.: Vortex dynamics in nonparabolic potentials. , Physical Review B 85 (2012), p. 174436/1-7
doi: 10.1103/PhysRevB.85.174436
2011
Nolle, D.; Weigand, M.; Schütz, G.; Goering, E.: High Contrast Magnetic and Nonmagnetic Sample Current Microscopy for Bulk and Transparent Samples Using Soft X-Rays. , Microscopy and Microanalysis 17 (2011), p. 834-842
doi: 10.1017/S1431927611000560
Kammerer, M.; Weigand, M.; Curcic, M.; Noske, M.; Sproll, M.; Vansteenkiste, A.; Van Waeyenberge, B.; Stoll, H.; Woltersdorf, G.; Back, C.H.; Schuetz, G.: Magnetic vortex core reversal by excitation of spin waves. , Nature Communications 2 (2011), p. 279/1-6
doi: 10.1038/ncomms1277
Schuetz, G.; Goering, E.; Stoll, H.: Magnetism studied with circularly polarized X-rays. , International Journal of Materials Research 102 (2011), p. 773-783
doi: 10.3139/146.110536
Mayer, M.; Grévent, C.; Szeghalmi, A.; Knez, M.; Weigand, M.; Rehbein, S.; Schneider, G.; Bartezky, B.; Schütz, G.: Multilayer Fresnel zone plate for soft X-ray microscopy resolves sub-39 nm structures. , Ultramicroscopy 111 (2011), p. 1706-1711
doi: 10.1016/j.ultramic.2011.09.003
Vogel, A.; Martens, M.; Weigand, M.; Meier, G.: Signal transfer in a chain of stray-field coupled ferromagnetic squares. , Applied Physics Letters 99 (2011), p. 042506/1-3
doi: 10.1063/1.3614551
Moutafis, C.; Rhensius, J.; Bisig, A.; Büttner, F.; Barton, C.; Morrison, C.; Thomson, T.; Tieg, C.; Schaffert, S.; Pfau, B.; Günther, C.M.; Eisebitt, S.; Kläui, M.: Skyrmions in perpendicular magnetic anisotropy dots: Imaging and simulations. , In: Electromagnetics in Advanced Applications (ICEAA), 2011 International Conference onTorino: IEEE, 2011. - ISBN 978-1-61284-976-8, p. 1121 - 1123
doi: 10.1109/ICEAA.2011.6046506
MAXYMUS