Since the first publication in 2005, several different scanner types for magnetic particle imaging (MPI) have been presented. One of these scanner concepts is traveling wave MPI (TWMPI). It uses a dynamic linear gradient array, which generates and moves a field free point with a strong gradient, which is necessary for scanning the sample in 3-D. Due to the linear properties of the TWMPI device, very fast 2-D imaging with frame rates higher than 1500 frames/s is possible (superspeed mode). Using the superspeed mode different high speed measurements are conceivable, e.g., fluid-dynamic investigations.
%0 Journal Article
%1 vogel_2015_2
%A Vogel, Patrick
%A Rückert, Martin Andreas
%A Klauer, Peter
%A Kullmann, Walter H
%A Jakob, Peter Michael
%A Behr, Volker Christian
%D 2015
%J IEEE Trans. Magn.
%K mpi
%N 2
%P 6501603
%R 10.1109/TMAG.2014.2322897
%T Superspeed Traveling Wave Magnetic Particle Imaging
%V 51
%X Since the first publication in 2005, several different scanner types for magnetic particle imaging (MPI) have been presented. One of these scanner concepts is traveling wave MPI (TWMPI). It uses a dynamic linear gradient array, which generates and moves a field free point with a strong gradient, which is necessary for scanning the sample in 3-D. Due to the linear properties of the TWMPI device, very fast 2-D imaging with frame rates higher than 1500 frames/s is possible (superspeed mode). Using the superspeed mode different high speed measurements are conceivable, e.g., fluid-dynamic investigations.
@article{vogel_2015_2,
abstract = {Since the first publication in 2005, several different scanner types for magnetic particle imaging (MPI) have been presented. One of these scanner concepts is traveling wave MPI (TWMPI). It uses a dynamic linear gradient array, which generates and moves a field free point with a strong gradient, which is necessary for scanning the sample in 3-D. Due to the linear properties of the TWMPI device, very fast 2-D imaging with frame rates higher than 1500 frames/s is possible (superspeed mode). Using the superspeed mode different high speed measurements are conceivable, e.g., fluid-dynamic investigations.},
added-at = {2018-01-13T17:36:27.000+0100},
author = {Vogel, Patrick and Rückert, Martin Andreas and Klauer, Peter and Kullmann, Walter H and Jakob, Peter Michael and Behr, Volker Christian},
biburl = {https://www.bibsonomy.org/bibtex/2ea499fc93aae6e30e93042698ba1af3b/ep5mpi},
doi = {10.1109/TMAG.2014.2322897},
interhash = {e39be30f9d5ab30e41076c23827a3ca8},
intrahash = {ea499fc93aae6e30e93042698ba1af3b},
issn = {0018-9464},
journal = {IEEE Trans. Magn.},
keywords = {mpi},
month = {2},
number = 2,
pages = 6501603,
timestamp = {2018-01-16T13:06:47.000+0100},
title = {Superspeed Traveling Wave Magnetic Particle Imaging},
volume = 51,
year = 2015
}