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H. Yu et al.: "Approaching soft X-ray wavelengths in nanomagnet-based microwave technology", Nature Communications 7, Article number: 11255 (2016) doi:10.1038/ncomms11255  [open access, link to published version: click here] . |
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T. Schwarze et al.: "Universal helimagnon and skyrmion excitations in metallic, semiconducting and insulating chiral magnets", Nature Materials 14, 478–483 (2015), doi:10.1038/nmat4223 [click here]. Supplementary information can be found [here]. |
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H. Yu, G. Duerr, R. Huber, M. Bahr, T. Schwarze, F. Brandl, and D. Grundler: "Omnidirectional spin-wave nanograting coupler", Nature Communications 4, Article number: 2702 (2013) doi:10.1038/ncomms3702 [open access, link to published version: click here] . |
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R. Huber, T. Schwarze, and D. Grundler: "Nanostripe of subwavelength width as a switchable semitransparent mirror for spin waves in a magnonic crystal", Phys. Rev. B 88, 100405(R) (2013). [pdf: click here] Copyright (2013) American Physical Society. |
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Thomas Schwarze and Dirk Grundler: "Magnonic crystal wave guide with large spin-wave propagation velocity in CoFeB", Appl. Phys. Lett. 102, 222412 (2013). [pdf: click here] Copyright (2013) American Institute of Physics. The original article may be found [here]. |
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R. Huber, M. Krawczyk, T. Schwarze, H. Yu, G. Duerr, S. Albert, and D. Grundler: "Reciprocal Damon-Eshbach-type spin wave excitation in a magnonic crystal due to tunable magnetic symmetry", Appl. Phys. Lett. 102, 012403 (2013). [pdf: click here] Copyright (2013) American Institute of Physics. The original article may be found [here]. |
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S. Tacchi, G. Duerr, J.W. Klos, M. Madami, S. Neusser , G. Gubbiotti, G. Carlotti, M. Krawczyk, and D. Grundler: "Forbidden band gaps in the spin-wave spectrum of a two-dimensional bicomponent magnonic crystal", Phys. Rev. Lett. 109, 137202 (2012). [pdf: click here] Copyright (2012) American Physical Society. |
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G. Duerr, K. Thurner, J. Topp, R. Huber, and D. Grundler: "Enhanced transmission through squeezed modes in a self-cladding magnonic waveguide", Phys. Rev. Lett. 108, 227202 (2012). [abstract: click here] |
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T. Schwarze, R. Huber, G. Duerr, and D. Grundler: "Complete band gaps for magnetostatic forward volume waves in a two-dimensional magnonic crystal", Phys. Rev. B 85, 134448 (2012). [pdf: click here] Copyright (2012) American Physical Society. |
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R. Zivieri, S. Tacchi, F. Montoncello, L. Giovannini, F. Nizzoli, M. Madami, G. Gubbiotti, G. Carlotti, S. Neusser, G. Duerr, and D. Grundler: "Bragg diffraction of spin waves from a two-dimensional antidot lattice", Phys. Rev. B 85, 012403 (2012). [abstract: click here] |
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R. Huber and D. Grundler: "Ferromagnetic nanodisks for magnonic crystals and waveguides", Proc. SPIE 8100, Spintronics IV, Henri-Jean M. Drouhin; Jean-Eric Wegrowe; Manijeh Razeghi, Editors, 81000D (2011). [abstract: click here] |
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G. Duerr, R. Huber, and D. Grundler: "Enhanced functionality in magnonics by domain walls and inhomogeneous spin configurations", J. Phys.: Cond. Matter 24, 024218 (2012). [FREE access for 30 days: click here] |
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J. Topp, S. Mendach, D. Heitmann, M. Kostylev, and D. Grundler: "Field- and geometry-controlled avoided crossings of spin-wave modes in reprogrammable magnonic crystals", Phys. Rev. B 84, 214413 (2011). [abstract: click here] |
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J. Topp, G. Duerr, K. Thurner, and D. Grundler "Reprogrammable magnonic crystals formed by interacting ferromagnetic nanowires ", Pure Appl. Chem. 83, 1989 (2011). [abstract: click here] |
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G. Duerr, M. Madami, S. Neusser, S. Tacchi, G. Gubbiotti, G. Carlotti, and D. Grundler: "Spatial control of spin-wave modes in Ni80Fe20 antidot lattices by embedded Co nanodisks", Appl. Phys. Lett. 99, 202502 (2011). [abstract: click here] |
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S. Neusser, H.G. Bauer, G. Duerr, R. Huber, S. Mamica, G. Woltersdorf, M. Krawczyk, C.H. Back, and D. Grundler: "Tunable metamaterial response of a Ni80Fe20 antidot lattice for spin waves ", Phys. Rev. B 84, 184411 (2011). [abstract: click here] |
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S. Neusser, G. Duerr, S. Tacchi, M. Madami, M.L. Sokolovskyy, G. Gubbiotti, M. Krawczyk, and D. Grundler: "Magnonic minibands in antidot lattices with large spin-wave propagation velocities", Phys. Rev. B. 84, 094454 (2011). [abstract: click here] |
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S. Neusser, G. Duerr, H. G. Bauer, S. Tacchi, M. Madami, G. Woltersdorf, G. Gubbiotti, C. H. Back, and D. Grundler: "Anisotropic propagation and damping of spin waves in a nanopatterned antidot lattice", Phys. Rev. Lett. 105, 067208 (2010). [abstract: click here] |
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V.V. Kruglyak, S.O. Demokritov, and D. Grundler: "Magnonics", J. Phys. D: Applied Physics 43, 264001 (2010). [abstract: click here] |
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J. Topp, D. Heitmann, M.P. Kostylev, and D. Grundler: "Making a Reconfigurable Artificial Crystal by Ordering Bistable Magnetic Nanowires", Phys. Rev. Lett. 104, 207205 (2010). [abstract: click here] |
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Silvia Tacchi, Marco Madami, Gianluca Gubbiotti, Giovanni Carlotti, Adekunle O. Adeyeye, Sebastian Neusser, Bernhard Botters, and Dirk Grundler: "Angular Dependence of Magnetic Normal Modes in NiFe Antidot Lattices With Different Lattice Symmetry", IEEE Trans. on Magn. 46, 1440 (2010). [abstract: click here] |
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Silvia Tacchi, Marco Madami, Gianluca Gubbiotti, Giovanni Carlotti, Adekunle O. Adeyeye, Sebastian Neusser, Bernhard Botters, and Dirk Grundler: "Magnetic Normal Modes in Squared Antidot Array With Circular Holes: A Combined Brillouin Light Scattering and Broadband Ferromagnetic Resonance Study", IEEE Trans. on Magn. 46, 172 (2010). [abstract: click here] |
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J. Topp, D. Heitmann, and D. Grundler: "Interaction effects on microwave-assisted switching of Ni80Fe20 nanowires in densely packed arrays", Phys. Rev. B 80, 174421 (2009). [abstract: click here] |
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S. Neusser and D. Grundler: "Magnonics: Spin Waves on the Nanoscale", Adv. Mater. 21, 2927 - 2932 (2009). [abstract: click here] |
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J. Topp, J. Podbielski, D. Heitmann, and D. Grundler: "Formation and control of internal spin-wave channels in arrays of densely packed Permalloy nanowires", J. Appl. Phys. 105, 07D302 (2009). [abstract: click here] |
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Dirk Grundler, Fabian Giesen, and Jan Podbielski: "Spin Waves in the Inhomogeneous Internal Field of Nanostructured Rings", book article in : Spin Wave Confinement, S. Demokritov (ed.), World Scientific (Aug. 2008). [link: click here] |
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S. Neusser, B. Botters, M. Becherer, D.
Schmitt-Landsiedel, and D. Grundler: "Spin wave localization between nearest and next-nearest neighboring holes in an antidot lattice", Appl. Phys. Lett. 93, 122501 (2008). [abstract: click here] |
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S. Neusser, B. Botters, and D. Grundler: "Localization, confinement, and field-controlled propagation of spin waves in antidot lattices", Phys. Rev. B 78, 054406 (2008). [abstract: click here] |
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J. Topp, J. Podbielski, D. Heitmann, and D. Grundler: "Internal spin-wave confinement in magnetic nanowires due to zig-zag magnetization", Phys. Rev. B 78, 024431 (2008). [abstract: click here] |
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Dirk Grundler, Fabian Giesen, and Jan Podbielski: "Tailoring spin excitations by nanolithography", Physics in Canada 63 (Special Issue: Spintronics), 63 (2007). [abstract: click here] |
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J. Podbielski, D. Heitmann, and D. Grundler: "Microwave Assisted Switching of Microscopic Rings: Correlation between nonlinear Spin Dynamics and Critical Microwave Fields", Phys. Rev. Lett. 99, 207202 (2007). [abstract: click here] |
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F. Giesen, J. Podbielski, and D. Grundler: "Mode localization transition in ferromagnetic microscopic rings", Phys. Rev. B 76, 014431 (2007). [abstract: click here] |
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F. Giesen, J. Podbielski, B. Botters, and D. Grundler: "Vortex circulation control in large arrays of asymmetric magnetic rings", Phys. Rev. B 75, 184428 (2007). [abstract: click here] |
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J. Podbielski, F. Giesen, and D. Grundler:
"Spin-Wave Interference in Microscopic Rings", Phys. Rev. Lett. 96, 167207 (2006). [abstract: click here] |
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F. Giesen, J. Podbielski, T. Korn, and D. Grundler:
"Multiple ferromagnetic resonance in mesoscopic permalloy rings", J. Appl. Phys. 97, 10A712 (2005). [abstract: click here] |
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F. Giesen, J. Podbielski, T. Korn, M. Steiner, A. van Staa, and D. Grundler:
"Hysteresis and control of ferromagnetic resonances in rings", Appl. Phys. Lett. 86, 112510 (2005). [abstract: click here] |
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J. Podbielski, F. Giesen, M. Berginski, N. Hoyer, and D. Grundler: "Spin configurations in nanostructured magnetic rings: from DC transport to GHz spectroscopy", Superlattices and Microstructures 37, 341 (2005). [abstract: click here] |
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T. Korn, F. Giesen, J. Podbielski, D.
Ravlic, C. Schüller, and D. Grundler: "Time-resolved study of the increased magnetization precession frequency of Fe wires" JMMM 285, 240 (2004). |
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