2012

Schriftpublikationen

Abert, C. / Exl, L. / Selke, G. / Drews, A. und Schrefl, T. (2012a): Numerical methods for the stray-field calculation: A comparison of recently developed algorithms. Journal of Magnetism and Magnetic Materials, [online] Available from: http://www.sciencedirect.com/science/article/pii/S0304885312007299 (Zugegriffen: 16 November 2012).

Abert, C. / Exl, L. / Selke, G. / Drews, A. und Schrefl, T. (2012b): Numerical methods for the stray-field calculation: A comparison of recently developed algorithms. Journal of Magnetism and Magnetic Materials, [online] Available from: http://www.sciencedirect.com/science/article/pii/S0304885312007299 (Zugegriffen: 17 Dezember 2012).

Abert, Claas / Exl, Lukas / Selke, Gunnar / Drews, André und Schrefl, Thomas (2012): Numerical Methods for the Stray-Field Calculation: A Comparison of recently developed Algorithms. arXiv:1204.4302, [online] Available from: http://arxiv.org/abs/1204.4302 (Zugegriffen: 14 Juni 2012).

Bashir, M. A. / Schrefl, T. / Dean, J. / Goncharov, A. / u. a. (2012): Head and bit patterned media optimization at areal densities of 2.5 Tbit/in(2) and beyond. JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 324(3), S. 269–275.

Bryan, M. T. / Bance, S. / Dean, J. / Schrefl, T. und Allwood, D. A. (2012): Transverse and vortex domain wall structure in magnetic nanowires with uniaxial in-plane anisotropy. JOURNAL OF PHYSICS-CONDENSED MATTER, 24(2, SI).

Cimrak, I. / Gusenbauer, M. und Schrefl, T. (2012): Modelling and simulation of processes in microfluidic devices for biomedical applications. COMPUTERS & MATHEMATICS WITH APPLICATIONS, 64(3), S. 278–288.

Exl, L. / Auzinger, W. / Bance, S. / Gusenbauer, M. / u. a. (2012a): Fast stray field computation on tensor grids. Journal of Computational Physics, [online] Available from: http://www.sciencedirect.com/science/article/pii/S0021999111007510 (Zugegriffen: 16 November 2012).

Exl, L. / Auzinger, W. / Bance, S. / Gusenbauer, M. / u. a. (2012b): Fast stray field computation on tensor grids. JOURNAL OF COMPUTATIONAL PHYSICS, 231(7), S. 2840–2850.

Exl, Lukas / Auzinger, W. / Bance, Simon / Gusenbauer, Markus / u. a. (2012): Fast stray field computation on tensor grids. Journal of Computational Physics, 231(7), S. 2840–2850.

Fiedler, G. / Fidler, J. / Lee, J. / Schrefl, T. / u. a. (2012): Direct calculation of the attempt frequency of magnetic structures using the finite element method. JOURNAL OF APPLIED PHYSICS, 111(9).

Goncharov, A. / Hrkac, G. / Dean, J. und Schrefl, T. (2012a): Finite Element Modelling of Impedance Spectroscopy Data in Composite Electroceramics. arXiv preprint arXiv:1209.3888, [online] Available from: http://arxiv.org/abs/1209.3888 (Zugegriffen: 16 November 2012).

Goncharov, A. / Hrkac, G. / Dean, J. und Schrefl, T. (2012b): Finite Element Modelling of Impedance Spectroscopy Data in Composite Electroceramics. arXiv preprint arXiv:1209.3888, [online] Available from: http://arxiv.org/abs/1209.3888 (Zugegriffen: 17 Dezember 2012).

Gusenbauer, Markus / Cimrak, Ivan / Bance, Simon / Exl, Lukas / u. a. (2012): A tunable cancer cell filter using magnetic beads: cellular and fluid dynamic simulations. Arxiv preprint arXiv:1110.0995.

Gusenbauer, Markus / Kovacs, Alexander / Reichel, Franz / Exl, Lukas / Bance, Simon / Oezelt, Harald / u. a. (2012): Self-organizing magnetic beads for biomedical applications. JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 324(6), S. 977–982.

Gusenbauer, Markus / Kovacs, Alexander / Reichel, Franz / Exl, Lukas / Bance, Simon / Özelt, Harald / u. a. (2012): Self-organizing magnetic beads for biomedical applications. Journal of Magnetism and Magnetic Materials, 324(6), S. 977–982.

Gusenbauer, Markus und Schrefl, Thomas (2012): Isolierung zirkulierender Tumorzellen. Laborwelt, 13(1/2012), S. 12–13.

Hrkac, G. / Hahn, D. / Saharan, L. / Schrefl, T. / u. a. (2012): Magnetic Vortex Core Oscillations in Multi Point Contact Spin Valve Stacks. IEEE TRANSACTIONS ON MAGNETICS, 48(11), S. 3811–3813.

Rueckriem, R. / Krone, P. / Schrefl, T. und Albrecht, M. (2012): Spin dynamics of magnetic nanostructures investigated by micromagnetic simulations. APPLIED PHYSICS LETTERS, 100(24).

Schrefl, Thomas / Shoji, Tetsuya / Winklhofer, Michael / Oezelt, Harald / u. a. (2012a): First order reversal curve studies of permanent magnets. Journal of Applied Physics, 111(7), S. 07A728 –07A728–3.

Schrefl, Thomas / Shoji, Tetsuya / Winklhofer, Michael / Oezelt, Harald / u. a. (2012b): First order reversal curve studies of permanent magnets. JOURNAL OF APPLIED PHYSICS, 111(7).

West, A. D. / Hayward, T. J. / Weatherill, K. J. / Schrefl, T. / Allwood, D. A. / u. a. (2012): A simple model for calculating magnetic nanowire domain wall fringing fields. Journal of Physics D: Applied Physics, 45(9), S. 095002.

West, A. D. / Hayward, T. J. / Weatherill, K. J. / Schrefl, Thomas / Allwood, D. A. / u. a. (2012): A simple model for calculating magnetic nanowire domain wall fringing fields. Journal of Physics D: Applied Physics, 45, S. 095002.

West, A. D. / Weatherill, K. J. / Hayward, T. J. / Fry, P. W. / Schrefl, T. / u. a. (2012): Realization of the Manipulation of Ultracold Atoms with a Reconfigurable Nanomagnetic System of Domain Walls. Nano Letters, [online] Available from: http://pubs.acs.org/doi/abs/10.1021/nl301491m (Zugegriffen: 16 November 2012).

West, A.D. / Weatherill, K.J. / Hayward, T.J. / Fry, P.W. / Schrefl, Thomas / u. a. (2012): Manipulating ultracold atoms with a reconfigurable nanomagnetic system of domain walls. Arxiv preprint arXiv:1112.0485.

West, Adam D. / Hayward, Thomas J. / Weatherill, Kevin J. / Schrefl, Thomas / u. a. (2012): A simple model for calculating magnetic nanowire domain wall fringing fields. JOURNAL OF PHYSICS D-APPLIED PHYSICS, 45(9).

West, Adam D. / Weatherill, Kevin J. / Hayward, Thomas J. / Fry, Paul / u. a. (2012): Realization of the Manipulation of Ultracold Atoms with a Reconfigurable Nanomagnetic System of Domain Walls. NANO LETTERS, 12(8), S. 4065–4069.

West, Adam / Hayward, Thomas / Weatherill, Kevin / Schrefl, Thomas / u. a. (2012): A simple model for calculating magnetic nanowire domain wall fringing fields. Journal of Physics D: Applied Physics, 45(9), S. 095002.

Woodcock, T. G. / Zhang, Y. / Hrkac, G. / Ciuta, G. / u. a. (2012): Understanding the microstructure and coercivity of high performance NdFeB-based magnets. SCRIPTA MATERIALIA, 67(6), S. 536–541.

Vorträge

Bance, S. (2012): Exchange-spring magnets in cylindrical geometries (poster). JEMS 2012, Parma.

Bryan, M. T. / Porter, N. A. / Claydon, J. S. / Bashir, M. A. / u. a. (2012): Asymmetric switching of GMR elements due to interaction with a planar nanowire (poster). Intermag2012, Vancouver.

Exl, L. (2012): Micromagnetic Energy Minimization for Low-Rank Tensor Magnetization (invited). San Diego.

Fischbacher, J. (2012): Enhanced nucleation fields due to dipolar interactions in nanocomposite magnets. JEMS 2012, Parma.

Gusenbauer, M. (2012): Computer Simulations to improve CTC yield (poster). 4th World Circulating Tumor Cells Summit, Berlin.

Hrkac, Gino / Hahn, D. / Saharan, L. / Kim, J. / u. a. (2012): Magnetic Vortex Core Oscillations in Multi Point Contact Spin Valve Stacks. Intermag 2012, Vancouver.

Kovacs, A. (2012): Fast switching main poles in perpendicular write heads (poster). JEMS 2012, Parma.

Oezelt, H. und Gusenbauer, M. (2012): Magnetic active polymers for biomedical applications (poster). JEMS 2012, Parma.

Reichel, F. (2012): Mechanical Oscillations of Magnetic Strips under the Influence of External Field (poster). JEMS 2012, Parma.

Saharan, L. / Morrison, C. / Miles, J. / Thomson, T. und Hrkac, G. (2012): Switching dynamics of Two-phase media at finite temperature. Intermag 2012, Vancouver.

Schrefl, T. (2012a): GPU Based Micromagnetics for Permanent Magnet Design (invited). International Workshop on Advanced  Micromagnetics, San Diego.

Schrefl, T. (2012b): Micromagnetic simulation of magnetic nanostructures (invited). ICM 2012, Busan.

Woodcock, T. G. / Hrkac, G. / Schrefl, T. und Gufleisch, O. (2012): Characterisation and modelling of grain junctions in Nd-Fe-B sintered magnets. Intermag 2012, Vancouver.