feeLLGood – Publications

The following publications have made use of feeLLGood. In your own publications, please refer the use of feeLLGood with the web site: https://feellgood.neel.cnrs.fr. Contact us to have your reference(s) listed below. Some other related publications can be found here.

• Micromagnetics of magnetic chemical modulations in soft-magnetic cylindrical nanowires, L. Alvaro-Gomez, S. Ruiz-Gomez, C. Fernandez-Gonzalez, M. Schöbitz, N. Mille, J. Hurst, D. Tiwari, A. De Riz, I.M. Andersen, J. Bachmann, L. Cagnon, M. Foerster, L. Aballe, R. Belkhou, J.-C. Toussaint, C. Thirion, A. Masseboeuf, D. Gusakova, L. Perez, O. Fruchart, Phys. Rev. B 106 (5), 054433 (2022) [APS].
• Time-resolved imaging of Oersted field induced magnetization dynamics in cylindrical magnetic nanowires, M. Schöbitz, S. Finizio, A. De Riz, J. Hurst, C. Thirion, D. Gusakova, J.-C. Toussaint, J. Bachmann, J. Raabe, O. Fruchart, Applied Physics Letters 118(17), 172411 (2021) [Hal].
• Theoritical study of current-induced domain wall motion in magnetic nanotubes with azimuthal domains, J. Hurst, A. De Riz, M. Stano, J.-C. Toussaint, O. Fruchart, D. Gusakova, Phys. Rev. B 103, 024434 (2021) [Hal].
• Mechanism of fast domain wall motion via current-assisted Bloch-point domain wall stabilization, A. De Riz, J. Hurst, M. Schöbitz, C. Thirion, J. Bachmann, J.-C. Toussaint, O. Fruchart, D. Gusakova, Phys. Rev. B 103, 054430 (2021) [Hal].
• Domain wall pinning in a circular cross-section wire with modulated diameter, A. De Riz, B. Trapp, J.A. Fernandez-Roldan, C. Thirion, J.-C. Toussaint, O. Fruchart, D. Gusakova, Magnetic Nano- and Microwires, Elsevier, 427-453 (2020) [ScienceDirect][Hal].
• Fast domain wall motion governed by topology and OErsted fields in cylindrical magnetic nanowires, M. Schöbitz, A. De Riz, S. Martin, S. Bochmann, C. Thirion, J. Vogel, M. Foerster, L. Aballe, T. O. Mentes, A. Locatelli, F. Genuzio, S. Le-Denmat, L. Cagnon, J. C. Toussaint, D. Gusakova, J. Bachmann, and O. Fruchart, Phys. Rev. Lett. 123, 217201 (2019) [arXiv].
• Modeling magnetic-field-induced domain wall propagation in modulated-diameter cylindrical nanowires, J. A. Fernandez-Roldan, A. De Riz, B. Trapp, C. Thirion, M. Vazquez, J. C. Toussaint, O. Fruchart, D. Gusakova, Scientific Reports, 9  5130 (2019).
• Bloch-point-mediated topological transformations of magnetic domain walls in cylindrical nanowires, A. Wartelle, B. Trapp, M. Stano et al., Phys. Rev. B (2019).
• Probing domain walls in cylindrical magnetic nanowires with electron holography, M. Stano, S. Jamet, J.C. Toussaint, S. Bochmann, J. Bachmann, A. Masseboeuf, C. Gatel, O. Fruchart, Journal of Physics: Conference Series 903 (1)  012055 (2017)[iopScience].
• Simultaneous resolution of the micromagnetic and the spin transport equations: current-induced domain wall dynamics, M. Sturma, C. Bellegarde, J.-C. Toussaint, D. Gusakova, Phys. Rev. B 94  104405 (2016).
• Head-to-head domain walls in one-dimensional nanostructures: an extended phase diagram ranging from strips to cylindrical wires, Ségolène Jamet, Nicolas Rougemaille, Jean-Christophe Toussaint, Olivier Fruchart, in Magnetic Nano- and Microwires: Design, synthesis, properties and applications, M. Vazquez Ed., Woodhead, (2015) [Hal].
• Geometry effects on spin transport and magnetization dynamics, M. Sturma, J.-C. Toussaint, D. Gusakova, Journal of Applied Physics 117  243901 (2015).
• Quantitative analysis of shadow X-ray Magnetic Circular Dichroism Photo-Emission Electron Microscopy, S. Jamet, S. Da Col, N. Rougemaille, A. Wartelle, A. Locatelli, T. O. Mentes, B. Santos Burgos, R. Afid, L. Cagnon, S. Bochmann, J. Bachmann, O. Fruchart, J.C. Toussaint, Phys. Rev. B 92  144428 (2015) [arXiv].
• Observation of Bloch-point domain walls in cylindrical magnetic nanowires, S. Da Col, N. Rougemaille, S. Jamet, M. Darques, R. Afid, T. O. Mentes, B. Santos Burgos, A. Locatelli, L. Cagnon, J. C. Toussaint, and O. Fruchart, Phys. Rev. B 89 (R)  180405 (2014) [arXiv].
• A convergent and precise finite element scheme for Landau–Lifschitz–Gilbert equation, François Alouges, Evaggelos Kritsikis, Jutta Steiner, Jean-Christophe Toussaint, Numerische Mathematik 128  (3), 407 (2014) [arXiv].
• Beyond first-order finite element schemes in micromagnetics., E. Kritsikis, A. Vaysset, L. Buda-Prejbeanu, F. Alouges, J.-C. Toussaint, J. Comput. Phys. 256  357-366 (2014).
• Growth and micromagnetism of self-assembled epitaxial fcc(111) cobalt dots, O. Fruchart, A. Masseboeuf, J. C. Toussaint, P. Bayle-Guillemaud, J. Phys. Condens. Matter. 25  496002 (2013) [arXiv].
• A convergent finite element approximation for Landau-Lifschitz-Gilbert equation, François Alouges, Evaggelos Kritsikis, Jean-Christophe Toussaint, Physica B: Condensed Matter 407  1345 (2012) [arXiv].
• Micromagnetic study of flux-closure states in Fe dots using quantitative Lorentz Microscopy, A. Massboeuf, O. Fruchart, F. Cheynis, N. Rougemaille, J. C. Toussaint, A. Marty, P. Bayle-Guillemaud, Ultramicrocopy 115  24-36 (2012) [arXiv].
• Dimensionality cross-over in magnetism: from domain walls (2D) to vortices (1D), A. Masseboeuf, O. Fruchart, J. C. Toussaint, E. Kritsikis, L. Buda-Prejbeanu, F. Cheynis, P. Bayle-Guillemaud, A. Marty, Phys. Rev. Lett. 104  127204 (2010) [arXiv].
• Controlled switching of Néel caps in Bloch magnetic domain walls, F. Cheynis, A. Masseboeuf, O. Fruchart, N. Rougemaille, J. C. Toussaint, R. Belkhou, P. Bayle-Guillemaud, A. Marty, Phys. Rev. Lett. 102  (10), 107201 (2009) [arXiv].
• Finite Element Formalism for Micromagnetism, H. Szambolics, L. D.Buda-Prejbeanu, J. C. Toussaint, O. Fruchart, CompeL Int J for Computation and Maths in Electrical and Electronic Eng 27  (1), 266-276 (2008).