@article{1071, author = {Blachowicz, Tomasz and Ehrmann, Andrea}, issn = {1089-7550}, journal = {Journal of Applied Physics}, number = {15}, publisher = {AIP Publishing}, title = {{Magnetization reversal in bent nanofibers of different cross sections}}, doi = {10.1063/1.5022065}, volume = {124}, year = {2018}, } @article{1432, author = {Pohlit, Merlin and Stockem, Irina and Porrati, Fabrizio and Huth, Michael and Schröder, Christian and Müller, Jens}, issn = {1089-7550}, journal = {Journal of Applied Physics}, number = {14}, publisher = {AIP Publishing}, title = {{Experimental and theoretical investigation of the magnetization dynamics of an artificial square spin ice cluster}}, doi = {10.1063/1.4961705}, volume = {120}, year = {2016}, } @article{400, author = {Blachowicz, T. and Ehrmann, Andrea and Steblinski, P. and Palka, J.}, issn = {1089-7550}, journal = {Journal of Applied Physics}, number = {1}, publisher = {AIP - American Institute of Physics }, title = {{Directional-dependent coercivities and magnetization reversal mechanisms in fourfold ferromagnetic systems of varying sizes}}, doi = {10.1063/1.4772459}, volume = {113}, year = {2013}, } @article{3527, author = {Corpus-Mendoza, Asiel N. and De Souza, M. M. and Hamelmann, Frank}, issn = {1089-7550}, journal = {Journal of Applied Physics}, number = {18}, publisher = {AIP Publishing}, title = {{Transport mechanisms and effective Schottky barrier height of ZnO/a-Si:H and ZnO/μc-Si:H heterojunction solar cells}}, doi = {10.1063/1.4831661}, volume = {114}, year = {2013}, } @article{3529, author = {Prunici, P. and Hamelmann, Frank and Beyer, W. and Kurz, H. and Stiebig, H.}, issn = {1089-7550}, journal = {Journal of Applied Physics}, number = {12}, publisher = {AIP Publishing}, title = {{Modelling of infrared optical constants for polycrystalline low pressure chemical vapour deposition ZnO:B films}}, doi = {10.1063/1.4795809}, volume = {113}, year = {2013}, } @article{412, author = {Tillmanns, Andrea and Blachowicz, T.}, issn = {1089-7550}, journal = {Journal of Applied Physics}, keywords = {Superconducting quantum interference device, Ferromagnetism, Magnetic anisotropy, Magnetic devices, Magnetic hysteresis, Magnetic materials, Magnetic ordering, Electromagnetism, Light scattering, Magnetooptical effects}, number = {8}, publisher = {American Inst. of Physics}, title = {{Adjusting exchange bias and coercivity of magnetic layered systems with varying anisotropies}}, volume = {109}, year = {2011}, } @article{408, author = {Blachowicz, T. and Ehrmann, Andrea}, issn = {1089-7550}, journal = {Journal of Applied Physics}, keywords = {Ferromagnetic materials, Magnetic devices, Magnetic materials, Magnetic ordering, Electromagnetism, Data processing, Data storage and retrieval, Nanoparticle, Nanowires, Transition metals}, number = {7}, publisher = {American Inst. of Physics}, title = {{Fourfold nanosystems for quaternary storage devices}}, doi = {https://doi.org/10.1063/1.3646490}, volume = {110}, year = {2011}, } @article{415, author = {Blachowicz, T. and Ehrmann Ne Tillmanns, Andrea and Steblinski, P. and Pawela, L.}, issn = {1089-7550}, journal = {Journal of Applied Physics}, keywords = {Exchange interactions, Magnetism, Oscillators, Electromagnetism, Data storage and retrieval, Nanomagnets, Alloys, Thin films, Finite-element analysis, Nanoparticle}, number = {12}, publisher = {American Inst. of Physics}, title = {{Magnetization reversal in magnetic half-balls influenced by shape perturbations}}, doi = {https://doi.org/10.1063/1.3524501}, volume = {108}, year = {2010}, } @article{2675, author = {Luciński, T. and Kopcewicz, M. and Hütten, A. and Brückl, H. and Heitmann, Sonja and Hempel, T. and Reiss, G.}, issn = {1089-7550}, journal = {Journal of Applied Physics}, number = {10}, pages = {6501--6503}, publisher = {AIP Publishing}, title = {{Magnetic and Mössbauer study of Fe/Si multilayers}}, doi = {10.1063/1.1558656}, volume = {93}, year = {2003}, } @article{2676, author = {Kämmerer, S. and Heitmann, Sonja and Meyners, D. and Sudfeld, D. and Thomas, A. and Hütten, A. and Reiss, G.}, issn = {1089-7550}, journal = {Journal of Applied Physics}, number = {10}, pages = {7945--7947}, publisher = {AIP Publishing}, title = {{Room-temperature preparation and magnetic behavior of Co2MnSi thin films}}, doi = {10.1063/1.1556249}, volume = {93}, year = {2003}, } @article{1454, author = {Jung, J. K. and Procissi, D. and Vincent, R. and Suh, B. J. and Borsa, F. and Kögerler, P. and Schröder, Christian and Luban, M.}, issn = {0021-8979}, journal = {Journal of Applied Physics}, number = {10}, publisher = {AIP Publishing}, title = {{Proton NMR in the giant paramagnetic molecule {Mo72Fe30}}}, doi = {10.1063/1.1448787}, volume = {91}, year = {2002}, } @article{6895, abstract = { The evolution of the giant magnetoresistance (GMR) effect in sputtered combination multilayers (CMLs) of type Py1.8nm//{(Cu1.8nm/Py1.6nm)N/(Cu0.9nm/Py1.6nm)N}y with Py (permalloy=Ni81Fe19) has been investigated at room temperature. It is shown that the GMR characteristic of these CMLs can be phenomenologically predicted, if the physical properties are known, i.e., the GMR effect amplitude, double layer conductance, and bilinear and biquadratic antiferromagnetic exchange coupling constants of the two underlying {Cu/Py}N base systems at the first (Cu0.9nm) and second (Cu1.8nm) antiferromagnetic coupling maximum (AFCM). The GMR characteristic of the simplest CML with N=1 is, e.g., determined by averaging the bilinear and biquadratic exchange coupling constants of the two base systems. The GMR characteristics of CML with N⩾2 are a superposition of that of the underlying {Cu/Py}N base systems weighted by the fraction of the corresponding double layer conductance. Furthermore, it is demonstrated that the CMLs are interesting from an application point of view since they combine the temperature stability of the underlying {Cu/Py}N base system at the second AFCM with a larger GMR effect amplitude. }, author = {Heitmann, S. and Hütten, A. and Hempel, T. and Schepper, W. and Reiss, G. and Alof, C.}, issn = {1089-7550}, journal = {Journal of Applied Physics}, number = {9}, pages = {4849--4851}, publisher = {AIP Publishing}, title = {{Interplay of antiferromagnetic coupling in copper/permalloy combination multilayers}}, doi = {10.1063/1.373179}, volume = {87}, year = {2000}, } @article{2685, author = {Heitmann, S. and Hütten, A. and Hempel, T. and Schepper, W. and Reiss, G. and Alof, C.}, issn = {1089-7550}, journal = {Journal of Applied Physics}, number = {9}, pages = {4849--4851}, publisher = {AIP Publishing}, title = {{Interplay of antiferromagnetic coupling in copper/permalloy combination multilayers}}, doi = {10.1063/1.373179}, volume = {87}, year = {2000}, } @article{3557, author = {Senderak, R. and Jergel, M. and Luby, S. and Majkova, E. and Holy, V. and Haindl, G. and Hamelmann, Frank and Kleineberg, U. and Heinzmann, U.}, issn = {1089-7550}, journal = {Journal of Applied Physics}, number = {5}, pages = {2229--2235}, publisher = {AIP Publishing}, title = {{Thermal stability of W1−xSix/Si multilayers under rapid thermal annealing}}, doi = {10.1063/1.364273}, volume = {81}, year = {1997}, }