Dr. rer. nat. Alexander Neumann

Institut für Medizintechnik
Universität zu Lübeck
Ratzeburger Allee 160
23562 Lübeck
Gebäude 64, Raum 051

Email:	a.neumann(at)uni-luebeck.de
Phone:	+49 451 3101 5480
Fax:	+49 451 3101 5404

Roles

Research Scientist

Research

Research Interests

Magnetic Particles and Nanostructures (Magnetic Behaviour)
Magnetic Particle Imaging
Heating of Magnetic Particles
Lithography
Micromagnetism

Involved Projects

Teaching

Involved Lectures, Seminars and Courses

Physik II
Grundlagen magnetischer Methoden in der Medizin

Curriculum Vitae

ALEXANDER NEUMANN was born in Hamburg, Germany, in 1984. He received his diploma in physics from the University of Hamburg, Germany, in 2010. From 2010 to 2014 he worked as a research assistant at the Institute of Applied Physics (University of Hamburg) in the group of Prof. H. P. Oepen. Within the group he studied the magnetic behavior of single ferromagnetic nanostructures.

Since the beginning of 2015 he is employed as a research scientist at the Institute of Medical Engineering at the Universität zu Lübeck.

Publications

[ 2022 ]
[ 2021 ]
[ 2020 ]
[ 2019 ]
[ 2018 ]
[ 2016 ]
[ 2015 ]
[ 2014 ]
[ 2013 ]
[ 2012 ]

2022[ to top ]

Schumacher, J., Neumann, A., Malhotra, A., Behrends, A. and Buzug, T.: Verfahren zur Erfassung der magnetischen Antwort einer Verteilung magnetisierbarer Partikel auf ein magnetisches Anregungsfeld, 2022, DE 10 2020 118 102 B4.
- [ BibTeX ]
@patent{schumacher2022verfahren, annote = {DE 10 2020 118 102 B4}, author = {Schumacher, Jonas and Neumann, Alexander and Malhotra, Ankit and Behrends, André and Buzug, Thorsten}, keywords = {schumacherjonas}, title = {Verfahren zur Erfassung der magnetischen Antwort einer Verteilung magnetisierbarer Partikel auf ein magnetisches Anregungsfeld}, year = 2022 }
Neumann, A., Gräfe, K., von Gladiss, A., Ahlborg, M., Behrends, A., Chen, X., Schumacher, J., Soares, Y. B., Friedrich, T., Wei, H., Malhorta, A., Aderhold, E., Bakenecker, A. C., Lüdtke-Buzug, K. and Buzug, T. M.: Recent developments in magnetic particle imaging, Journal of Magnetism and Magnetic Materials, 550, 169037, 2022, DOI: 10.1016/j.jmmm.2022.169037.
- [ BibTeX ]
- [ URL ]
@article{Neumann_2022, author = {Neumann, Alexander and Gräfe, Ksenija and von Gladiss, Anselm and Ahlborg, Mandy and Behrends, Andr{\'{e}} and Chen, Xin and Schumacher, Jonas and Soares, Yvonne Blancke and Friedrich, Thomas and Wei, Humin and Malhorta, Ankit and Aderhold, Eric and Bakenecker, Anna C. and Lüdtke-Buzug, Kerstin and Buzug, Thorsten M.}, journal = {Journal of Magnetism and Magnetic Materials}, keywords = {weihuimin}, month = {may}, pages = 169037, publisher = {Elsevier {BV}}, title = {Recent developments in magnetic particle imaging}, volume = 550, year = 2022 }
Gräser, M., Wegner, F., Schumacher, J., Ahlborg, M., Gräfe, K., Aderhold, E., Soares, Y. B., Lüdtke-Buzug, K., Neumann, A., Stagge, P., Wei, H., Ackers, J. and Buzug, T. M.: Magnetic particle imaging, Die Radiologie, 62(6), 496–503, 2022, DOI: 10.1007/s00117-022-01011-9.
- [ BibTeX ]
- [ URL ]
@article{Gr_ser_2022, author = {Gräser, Matthias and Wegner, Franz and Schumacher, Jonas and Ahlborg, Mandy and Gräfe, Ksenija and Aderhold, Eric and Soares, Yvonne Blancke and Lüdtke-Buzug, Kerstin and Neumann, Alexander and Stagge, Pascal and Wei, Huimin and Ackers, Justin and Buzug, Thorsten M.}, journal = {Die Radiologie}, keywords = {weihuimin}, month = {may}, number = 6, pages = {496–503}, publisher = {Springer Science and Business Media {LLC}}, title = {Magnetic particle imaging}, volume = 62, year = 2022 }

2021[ to top ]

Bakenecker, A. C., von Gladiss, A., Schwenke, H., Behrends, A., Friedrich, T., Lüdtke-Buzug, K., Neumann, A., Barkhausen, J., Wegner, F. and Buzug, T. M.: Navigation of a magnetic micro-robot through a cerebral aneurysm phantom with magnetic particle imaging, Scientific Reports, 11(1), 2021, DOI: 10.1038/s41598-021-93323-4.
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- [ URL ]
@article{bakenecker2021micro-robot, author = {Bakenecker, Anna C. and von Gladiss, Anselm and Schwenke, Hannes and Behrends, André and Friedrich, Thomas and Lüdtke-Buzug, Kerstin and Neumann, Alexander and Barkhausen, Joerg and Wegner, Franz and Buzug, Thorsten M.}, journal = {Scientific Reports}, keywords = {neumannalexander}, number = 1, title = {Navigation of a magnetic micro-robot through a cerebral aneurysm phantom with magnetic particle imaging}, volume = 11, year = 2021 }
Behrends, A., Bakenecker, A., Ahlborg, M., Gräfe, K., Schumacher, J., Stelzner, J., Wegner, F., Neumann, A., Blancke Soares, Y., Lüdtke-Buzug, K., Chen, X., Wei, H., Malhotra, A., Friedrich, T. and Buzug, T. M.: Magnetic particle imaging, In: Imaging Modalities for Biological and Preclinical Research: A Compendium, IOP Publishing, , II.8–1 to II.8, 2021, DOI: 10.1088/978-0-7503-3747-2ch12.
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- [ URL ]
@incollection{10.1088/978-0-7503-3747-2ch12, abstract = {This chapter aims to give an overview on the topic of magnetic particle imaging and its possibilities in diagnostics and therapy. An elementary discussion on particle properties and physical principles is proceeded by the concepts of signal generation, particle detection and spatial encoding used in magnetic particle imaging. A general description of the hardware setups and the reconstruction methods will give an impression of common challenges and their solutions. Furthermore, the medical relevance, especially the possibility to combine diagnostics and therapy is discussed. The chapter will be completed by a debate on strengths and limitations as well as future directions of the magnetic particle imaging modality.}, author = {Behrends, André and Bakenecker, Anna and Ahlborg, Mandy and Gräfe, Ksenija and Schumacher, Jonas and Stelzner, Jan and Wegner, Franz and Neumann, Alexander and Blancke Soares, Yvonne and Lüdtke-Buzug, Kerstin and Chen, Xin and Wei, Huimin and Malhotra, Ankit and Friedrich, Thomas and Buzug, Thorsten M.}, booktitle = {Imaging Modalities for Biological and Preclinical Research: A Compendium}, keywords = {weihuimin}, month = {may}, pages = {II.8-1 to II.8-10}, publisher = {IOP Publishing}, series = {2053-2563}, title = {Magnetic particle imaging}, type = {Book Chapter}, volume = 2, year = 2021 }

2020[ to top ]

Behrends, A., Tessars, K., Schumacher, J., Neumann, A. and Buzug, T.: A standard procedure for implementation and automatic correction of LCC matching networks, International Journal on Magnetic Particle Imaging, Vol 6 No 2 Suppl. 1 (2020), 2020, DOI: 10.18416/IJMPI.2020.2009036.
- [ BibTeX ]
- [ URL ]
@article{https://doi.org/10.18416/ijmpi.2020.2009036, author = {Behrends, André and Tessars, Kerrin and Schumacher, Jonas and Neumann, Alexander and Buzug, Thorsten}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {SchumacherJonas}, pages = {Vol 6 No 2 Suppl. 1 (2020)}, publisher = {International Journal on Magnetic Particle Imaging}, title = {A standard procedure for implementation and automatic correction of LCC matching networks}, year = 2020 }
Neumann, A. and Buzug, T. M.: Simulations of magnetic particles with arbitrary anisotropies, International Journal on Magnetic Particle Imaging, 6(2), Suppl. 1, 2009032, 2020, DOI: 10.18416/IJMPI.2020.2009032.
- [ BibTeX ]
- [ URL ]
@article{neumann2020simulations, abstract = {To simulate the behavior of realistic magnetic particles in magnetic particle imaging it is not enough to perform simulations assuming only a uniaxial magnetic anisotropy energy due to the complex coupling between the magnetic and the mechanic degrees of freedom of the particle in multidimensional excitation fields. Most particles can only be approximated of having uniaxial magnetic anisotropy energy. As such, this work will discuss the shortcoming of currently used models focusing on only uniaxial anisotropy and show how a theoretical model must be defined to allow for arbitrary anisotropy energies. First simulation results showing the differences between different anisotropy energies will be presented at the workshop.}, author = {Neumann, Alexander and Buzug, Thorsten M.}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {samba}, number = 2, pages = {Suppl. 1, 2009032}, title = {Simulations of magnetic particles with arbitrary anisotropies}, volume = 6, year = 2020 }
Klemme, T., Buzug, T. M. and Neumann, A.: Exploring Parameters of Magnetic Particles in 1D Field Excitation, International Journal on Magnetic Particle Imaging, 6(2), 2004001, 2020, DOI: 10.18416/IJMPI.2020.2004001.
- [ BibTeX ]
- [ URL ]
@article{klemme2020, abstract = {This work explores how different parameters, e.g. magnetic anisotropy and core radius, influence the signal/spectrum of magnetic particles in a one-dimensional excitation field. Simulations are performed using a model considering both the mechanical and magnetization dynamics of the particle. The performed simulations show an increase of amplitude at higher harmonics for anisotropy constants within a certain range. This increase is also observed for different magnetic radii. The obtained knowledge can help to improve the performance of magnetic particles in magnetic particle imaging.}, author = {Klemme, Tobias and Buzug, Thorsten M. and Neumann, Alexander}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {samba}, number = 2, pages = 2004001, title = {Exploring Parameters of Magnetic Particles in 1D Field Excitation}, volume = 6, year = 2020 }
Chen, X., Behrends, A., Malhotra, A., Neumann, A. and Buzug, T. M.: Temperature-dependent spectrum measurement using a magnetic particle spectrometer, International Journal on Magnetic Particle Imaging, 6(2), Suppl 1, 2020, DOI: https://doi.org/10.18416/IJMPI.2020.2009034.
- [ BibTeX ]
@article{chen2020temperaturedependent, author = {Chen, Xin and Behrends, André and Malhotra, Ankit and Neumann, Alexander and Buzug, Thorsten M.}, journal = {International Journal on Magnetic Particle Imaging}, keywords = {samba}, number = 2, pages = {Suppl 1}, title = {Temperature-dependent spectrum measurement using a magnetic particle spectrometer}, volume = 6, year = 2020 }

2019[ to top ]

von Gladiss, A., Beuke, J., Weber, M., Malhotra, A., Behrends, A., Cordes, A., Stille, M., Behr, V. C., Vogel, P., Gräfe, K., Friedrich, T., Lüdtke-Buzug, K., Neumann, A., Ahlborg, M. and Buzug, T. M.: Dynamic 2D Imaging with an MPI Scanner Featuring a Mechanically Rotated FFL, 5, 2019.
- [ BibTeX ]
@inproceedings{vonGladiss2019dynamic, author = {von Gladiss, Anselm and Beuke, Jonas and Weber, Matthias and Malhotra, Ankit and Behrends, André and Cordes, Aileen and Stille, Maik and Behr, Volker C. and Vogel, Patrick and Gräfe, Ksenija and Friedrich, Thomas and Lüdtke-Buzug, Kerstin and Neumann, Alexander and Ahlborg, Mandy and Buzug, Thorsten M.}, booktitle = {9th International Workshop on Magnetic Particle Imaging}, keywords = {WeberMatthias}, pages = 5, title = {Dynamic 2D Imaging with an MPI Scanner Featuring a Mechanically Rotated FFL}, year = 2019 }
Malhotra, A., von Gladiss, A., Behrends, A., Friedrich, T., Neumann, A., Buzug, T. M. and Lüdtke-Buzug, K.: Tracking the Growth of Superparamagnetic Nanoparticles with an In-Situ Magnetic Particle Spectrometer (INSPECT), Scientific Reports, 9(10538), 2019, DOI: https://doi.org/10.1038/s41598-019-46882-6.
- [ BibTeX ]
- [ URL ]
@article{malhotra2019tracking, abstract = {Magnetic Particle Spectroscopy (MPS) is a measurement technique to determine the magnetic properties of superparamagnetic iron oxide nanoparticles (SPIONs) in an oscillating magnetic field as applied in Magnetic Particle Imaging (MPI). State of the art MPS devices are solely capable of measuring the magnetization response of the SPIONs to an oscillatory magnetic excitation retrospectively, i.e. after the synthesis process. In this contribution, a novel in-situ magnetic particle spectrometer (INSPECT) is presented, which can be used to monitor the entire synthesis process from particle genesis via growth to the stable colloidal suspension of the nanoparticles in real time. The device is suitable for the use in a biochemistry environment. It has a chamber size of 72 mm such that a 100 ml reaction flask can be used for synthesis. For an alkaline-based precipitation, the change of magnetic properties of SPIONs during the nucleation and growth phase of the synthesis is demonstrated. The device is able to record the changes in the amplitude and phase spectra, and, in turn, the hysteresis. Hence, it is a powerful tool for an in-depth understanding of the nanoparticle formation dynamics during the synthesis process.}, author = {Malhotra, Ankit and von Gladiss, Anselm and Behrends, André and Friedrich, Thomas and Neumann, Alexander and Buzug, Thorsten M. and Lüdtke-Buzug, Kerstin}, journal = {Scientific Reports}, keywords = {luedtkekerstin}, month = {jul}, number = 10538, title = {Tracking the Growth of Superparamagnetic Nanoparticles with an In-Situ Magnetic Particle Spectrometer (INSPECT)}, volume = 9, year = 2019 }
Chen, X., Behrends, A., Neumann, A. and Buzug, T. M.: Sample Temperature Control in a Three-Dimensional Magnetic Particle Spectrometer, 211, 2019.
- [ BibTeX ]
@inproceedings{chen2019sample, author = {Chen, Xin and Behrends, André and Neumann, Alexander and Buzug, Thorsten. M}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {mps}, pages = 211, title = {Sample Temperature Control in a Three-Dimensional Magnetic Particle Spectrometer}, year = 2019 }
Behrends, A., Wei, H., Friedrich, T., Neumann, A. and Buzug, T. M.: A self-compensating coil setup for combined magnetic particle imaging and magnetic fluid hyperthermia, 2019.
- [ BibTeX ]
@inproceedings{behrends2019selfcompensating, author = {Behrends, André and Wei, Huimin and Friedrich, Thomas and Neumann, Alexander and Buzug, Thorsten M.}, booktitle = {9th International Workshop on Magnetic Particle Imaging}, keywords = {weihuimin}, title = {A self-compensating coil setup for combined magnetic particle imaging and magnetic fluid hyperthermia}, year = 2019 }
Neumann, A., Draack, S., Ludwig, F. and Buzug, T. M.: Parameter estimations of magnetic particles: A comparison between measurements and simulations, 79, 2019.
- [ BibTeX ]
- [ URL ]
@inproceedings{neumann2019parameter, author = {Neumann, Alexander and Draack, S. and Ludwig, F. and Buzug, Thorsten M.}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {samba}, pages = 79, title = {Parameter estimations of magnetic particles: A comparison between measurements and simulations}, year = 2019 }
Klemme, T., Buzug, T. M. and Neumann, A.: Exploring parameters of magnetic particles in 1D field excitation, 189, 2019.
- [ BibTeX ]
- [ URL ]
@inproceedings{klemme2019exploring, author = {Klemme, Tobias and Buzug, Thorsten M. and Neumann, Alexander}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {samba}, pages = 189, title = {Exploring parameters of magnetic particles in 1D field excitation}, year = 2019 }

2018[ to top ]

Neumann, A. and Buzug, T. M.: Stochastic simulations of magnetic particles: Comparison of different methods, 213, 2018.
- [ BibTeX ]
- [ URL ]
@conference{neumann2018stochastic, author = {Neumann, Alexander and Buzug, Thorsten M.}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {samba}, pages = 213, title = {Stochastic simulations of magnetic particles: Comparison of different methods}, year = 2018 }
Behrends, A., Buzug, T. M. and Neumann, A.: Design of a Switched-Capacitor Array for High-Power Applications with Dense Coverage of Medium Frequency-Range, 171–172, 2018.
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@inproceedings{behrends2018design, author = {Behrends, Andre and Buzug, Thorsten M. and Neumann, Alexander}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {samba}, pages = {171-172}, title = {Design of a Switched-Capacitor Array for High-Power Applications with Dense Coverage of Medium Frequency-Range}, year = 2018 }
Chen, X., Neumann, A. and Buzug, T. M.: Optimizing Transmit Coils for a Magnetic Particle Spectrometer, 161, 2018.
- [ BibTeX ]
@inproceedings{chen2018optimizing, author = {Chen, Xin and Neumann, Alexander and Buzug, Thorsten. M}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {mps}, pages = 161, title = {Optimizing Transmit Coils for a Magnetic Particle Spectrometer}, year = 2018 }
Stier, M., Neumann, A., Philippi-Kobs, A., Oepen, H. P. and Thorwart, M.: Implications of a temperature-dependent magnetic anisotropy for superparamagnetic switching, Journal of Magnetism and Magnetic Materials, 447, 96–100, 2018, DOI: 10.1016/j.jmmm.2017.09.068.
- [ BibTeX ]
- [ URL ]
@article{Stier_2018, author = {Stier, Martin and Neumann, Alexander and Philippi-Kobs, Andr{\'{e}} and Oepen, Hans Peter and Thorwart, Michael}, journal = {Journal of Magnetism and Magnetic Materials}, keywords = {neumannalexander}, month = {feb}, pages = {96–100}, publisher = {Elsevier {BV}}, title = {Implications of a temperature-dependent magnetic anisotropy for superparamagnetic switching}, volume = 447, year = 2018 }
Kranemann, T. C., Ersepke, T., Franke, J., Friedrich, T., Neumann, A., Buzug, T. M. and Schmitz, G.: An MPI-Compatible HIFU Transducer: Experimental Evaluation of Interferences, 197, 2018.
- [ BibTeX ]
@inproceedings{kranemann2018mpicompatible, author = {Kranemann, Tim C. and Ersepke, T. and Franke, J. and Friedrich, Thomas and Neumann, Alexander and Buzug, Thorsten M. and Schmitz, G.}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {samba}, pages = 197, title = {An MPI-Compatible HIFU Transducer: Experimental Evaluation of Interferences}, year = 2018 }

2016[ to top ]

Griffiths, R. A., Nutter, P. W., Neumann, A., Thönnißen, C., Wilhelm, E.-S. and Thomson, T.: Signal asymmetries in the anomalous Hall effect of bilayer magnetic nanostructures, Applied Physics Letters, 109(13), 132401, 2016, DOI: 10.1063/1.4963231.
- [ BibTeX ]
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@article{Griffiths_2016, author = {Griffiths, R. A. and Nutter, P. W. and Neumann, A. and Thönni{\ss}en, C. and Wilhelm, E.-S. and Thomson, T.}, journal = {Applied Physics Letters}, keywords = {neumannalexander}, month = {sep}, number = 13, pages = 132401, publisher = {{AIP} Publishing}, title = {Signal asymmetries in the anomalous Hall effect of bilayer magnetic nanostructures}, volume = 109, year = 2016 }
Neumann, A., Frauen, A., Vollmers, J., Meyer, A. and Oepen, H. P.: Structure-induced spin reorientation in magnetic nanostructures, Phys. Rev. B, 94(9), 094430, 2016, DOI: 10.1103/PhysRevB.94.094430.
- [ BibTeX ]
- [ URL ]
@article{PhysRevB.94.094430, author = {Neumann, Alexander and Frauen, Axel and Vollmers, Julian and Meyer, Andreas and Oepen, Hans Peter}, journal = {Phys. Rev. B}, keywords = {neumannalexander}, month = {sep}, number = 9, pages = {094430}, publisher = {American Physical Society}, title = {Structure-induced spin reorientation in magnetic nanostructures}, volume = 94, year = 2016 }
Chen, X., Behrends, A., Graeser, M., Neumann, A. and Buzug, T. M.: Optimizing the Coil Setup for a Three-Dimensional Magnetic Particle Spectrometer, 59, 2016.
- [ BibTeX ]
@inproceedings{chen2016optimizing, author = {Chen, Xin and Behrends, André and Graeser, Matthias and Neumann, Alexander and Buzug, Thorsten M.}, booktitle = {International Workshop on Magnetic Particle Imaging}, editor = {Buzug, Thorsten M. and Borgert, Jörn and Knopp, Tobias}, keywords = {SAMBA}, month = {March}, pages = 59, publisher = {Infinite Science Publishing}, title = {Optimizing the Coil Setup for a Three-Dimensional Magnetic Particle Spectrometer}, year = 2016 }
Behrends, A., Buzug, T. M. and Neumann, A.: Magnetic Particle Spectrometer for the Analysis of Magnetic Particle Heating Applications, 47, 2016.
- [ BibTeX ]
@inproceedings{behrends2016magnetic, author = {Behrends, Andre and Buzug, Thorsten M. and Neumann, Alexander}, booktitle = {International Workshop on Magnetic Particle Imaging}, keywords = {samba}, pages = 47, title = {Magnetic Particle Spectrometer for the Analysis of Magnetic Particle Heating Applications}, year = 2016 }
Graeser, M., Bente, K., Neumann, A. and Buzug, T.: Trajectory dependent particle response for anisotropic mono domain particles in magnetic particle imaging, Journal of Physics D: Applied Physics, 49(4), 045007, 2016.
- [ BibTeX ]
- [ URL ]
@article{0022-3727-49-4-045007, abstract = {In magnetic particle imaging, scanners use different spatial sampling techniques to cover the field of view (FOV). As spatial encoding is realized by a selective low field region (a field-free-point, or field-free-line), this region has to be moved through the FOV on specific sampling trajectories. To achieve these trajectories complex time dependent magnetic fields are necessary. Due to the superposition of the selection field and the homogeneous time dependent fields, particles at different spatial positions experience different field sequences. As a result, the dynamic behaviour of those particles can be strongly spatially dependent. So far, simulation studies that determined the trajectory quality have used the Langevin function to model the particle response. This however, neglects the dynamic relaxation of the particles, which is highly affected by magnetic anisotropy. More sophisticated models based on stochastic differential equations that include these effects were only used for one dimensional excitation. In this work, a model based on stochastic differential equations is applied to two-dimensional trajectory field sequences, and the effects of these field sequences on the particle response are investigated. The results show that the signal of anisotropic particles is not based on particle parameters such as size and shape alone, but is also determined by the field sequence that a particle ensemble experiences at its spatial position. It is concluded, that the particle parameters can be optimized in terms of the used trajectory.}, author = {Graeser, M. and Bente, K. and Neumann, A. and Buzug, T.M.}, journal = {Journal of Physics D: Applied Physics}, keywords = {NeumannAlexander}, number = 4, pages = {045007}, title = {Trajectory dependent particle response for anisotropic mono domain particles in magnetic particle imaging}, volume = 49, year = 2016 }

2015[ to top ]

Graeser, M., Bente, K., Neumann, A. and Buzug, T. M.: Trajectory Dependent Particle Response for Anisotropic Mono Domain Particles in Magnetic Particle Imaging, Journal of Physics D: Applied Physics, 49(4), 2015, DOI: 10.1088/0022-3727/49/4/045007.
- [ BibTeX ]
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@article{Graeser2015c, author = {Graeser, Matthias and Bente, Klaas and Neumann, Alexander and Buzug, Thorsten M.}, journal = {Journal of Physics D: Applied Physics}, keywords = {SAMBA}, number = 4, title = {Trajectory Dependent Particle Response for Anisotropic Mono Domain Particles in Magnetic Particle Imaging}, volume = 49, year = 2015 }

2014[ to top ]

Neumann, A., Altwein, D., Thönnißen, C., Wieser, R., Berger, A., Meyer, A., Vedmedenko, E. and Oepen, H. P.: Influence of long-range interactions on the switching behavior of particles in an array of ferromagnetic nanostructures, New Journal of Physics, 16(8), 083012, 2014, DOI: 10.1088/1367-2630/16/8/083012.
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@article{Neumann2014, abstract = {The interaction of Co/Pt nanodots is studied by means of the anomalous Hall-effect. On purpose the system of four dots is driven into a state of instability by applying a magnetic field perpendicular to the easy axis of magnetization. The dots become susceptible to thermal excitation and correlated switching is observed over large distances. The experimental finding is supported by theoretical simulations that reveal the importance of correlations and their influence at large length scales. This unexpected result sheds light on the general behavior of ensembles of systems with small energy barriers like superparamagnetic ensembles or switching of high density bit pattern media around the switching field.}, author = {Neumann, Alexander and Altwein, David and Thönnißen, Carsten and Wieser, Robert and Berger, Andreas and Meyer, Andreas and Vedmedenko, Elena and Oepen, Hans Peter}, journal = {New Journal of Physics}, keywords = {NeumannAlexander}, number = 8, pages = {083012}, title = {Influence of long-range interactions on the switching behavior of particles in an array of ferromagnetic nanostructures}, volume = 16, year = 2014 }
Wessels, P., Ewald, J., Wieland, M., Nisius, T., Abbati, G., Baumbach, S., Overbuschmann, J., Vogel, A., Neumann, A., Viefhaus, J., Oepen, H. P., Meier, G., Willhein, T. and Drescher, M.: Time-resolved soft X-ray microscopy of magnetic nanostructures at the P04 beamline at PETRA III, 012009, 2014, DOI: 10.1088/1742-6596/499/1/012009.
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@inproceedings{PWessels2014, author = {Wessels, P. and Ewald, J. and Wieland, M. and Nisius, T. and Abbati, G. and Baumbach, S. and Overbuschmann, J. and Vogel, A. and Neumann, Alexander and Viefhaus, J. and Oepen, H. P. and Meier, G. and Willhein, T. and Drescher, M.}, booktitle = {Journal of Physics: Conference Series}, keywords = {neumannalexander}, pages = {012009}, publisher = {IOP Publishing Ltd}, title = {Time-resolved soft X-ray microscopy of magnetic nanostructures at the P04 beamline at PETRA III}, volume = 499, year = 2014 }

2013[ to top ]

Wessels, P., Schlie, M., Wieland, M., Ewald, J., Abbati, G., Baumbach, S., Overbuschmann, J., Nisius, T., Vogel, A., Neumann, A., Meents, A., Viefhaus, J., Oepen, H. P., Meier, G., Willhein, T. and Drescher, M.: XMCD microscopy with synchronized soft X-ray and laser pulses at PETRA III for time-resolved studies, 012023, 2013, DOI: 10.1088/1742-6596/463/1/012023.
- [ BibTeX ]
- [ URL ]
@inproceedings{PWessels2013, author = {Wessels, P. and Schlie, M. and Wieland, M. and Ewald, J. and Abbati, G. and Baumbach, S. and Overbuschmann, J. and Nisius, T. and Vogel, A. and Neumann, A. and Meents, A. and Viefhaus, J. and Oepen, H. P. and Meier, G. and Willhein, T. and Drescher, M.}, booktitle = {XMCD microscopy with synchronized soft X-ray and laser pulses at PETRA III for time-resolved studies}, keywords = {neumannalexander}, pages = {012023}, publisher = {IOP Publishing Ltd}, title = {XMCD microscopy with synchronized soft X-ray and laser pulses at PETRA III for time-resolved studies}, volume = 463, year = 2013 }
Neumann, A., Thönnißen, C., Frauen, A., Heße, S., Meyer, A. and Oepen, H. P.: Probing the Magnetic Behavior of Single Nanodots, Nano Letters, 13(5), 2199–2203, 2013, DOI: 10.1021/nl400728r.
- [ BibTeX ]
- [ URL ]
@article{Neumann2013, abstract = {In this paper, a method is presented that has the sensitivity to measure magnetization behavior of single nanostructures. It is demonstrated that the technique gives the ability to separate different signals of single nanodots from a small ensemble of structures. Our method is based on the anomalous Hall-Effect and allows for resolving signals from spherical nanoparticles with diameter down to 3.5 nm. The method gives access to magnetic properties of particles in a wide thermal and dynamical range. The potential of the technique is demonstrated utilizing particles that are created from Co films sandwiched by Pt layers.}, author = {Neumann, Alexander and Thönnißen, Carsten and Frauen, Axel and Heße, Simon and Meyer, Andreas and Oepen, Hans Peter}, journal = {Nano Letters}, keywords = {NeumannAlexander}, note = {PMID: 23557292}, number = 5, pages = {2199-2203}, title = {Probing the Magnetic Behavior of Single Nanodots}, volume = 13, year = 2013 }

2012[ to top ]

Neumann, A.: Fabrication of Magnetic Co/Pt Nanodots Utilizing Filled Diblock Copolymers, The Open Surface Science Journal, 4(1), 55–64, 2012, DOI: 10.2174/1876531901204010055.
- [ BibTeX ]
- [ URL ]
@article{Neumann2012, author = {Neumann, A.}, journal = {The Open Surface Science Journal}, keywords = {NeumannAlexander}, month = {aug}, number = 1, pages = {55-64}, publisher = {Bentham Science Publishers Ltd.}, title = {Fabrication of Magnetic Co/Pt Nanodots Utilizing Filled Diblock Copolymers}, volume = 4, year = 2012 }

Theses

Alexander Neumann, Temperaturabhängige Messungen an superparamagnetischen Nanodots mittels des anomalen Hall-Effektes, Diplomarbeit, Universität Hamburg, 2010.

Alexander Neumann, Magnetisierungsverhalten einzelner ferromagnetischer Nanostrukturen, Doktorarbeit, Universität Hamburg, 2014.