Current Publications
Journal Publications
Recent Journal Publications
| [76920] |
| Title: Measure of trajectory quality in {Magnetic Particle Imaging}. <em>2013 3rd</em> |
| Written by: H. Wojtczyk, A. Timmermeyer, W. Tenner, T. F. Sattel, G. Bringout, M. Grüttner, M. Graeser, and T. M. Buzug |
| in: <em>International Workshop on {Magnetic Particle Imaging} ({IWMPI}), IEEE Xplore Digital Library</em>. (2013). |
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| DOI: 10.1109/IWMPI.2013.6528351 |
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Note: inproceedings
Abstract: For all trajectories, the energies computed in time and frequency domain agree well. The maximum local magnetization change {dM}/dt is largest for the spiral and Lissajous trajectories while it is smallest for the Cartesian trajectory. For the Lissajous and Cartesian trajectories, the total magnetization change appears more homogeneous over the field of view ({FOV}) than for the radial and spiral trajectories, where it is stronger in the center compared to the borders. In general, areas of homogeneous high total magnetization change seem to correspond to areas of high spatial resolution in reconstructed images.
Conference Abstracts and Proceedings
Recent Conference Abstracts and Proceedings
| [76920] |
| Title: Measure of trajectory quality in {Magnetic Particle Imaging}. <em>2013 3rd</em> |
| Written by: H. Wojtczyk, A. Timmermeyer, W. Tenner, T. F. Sattel, G. Bringout, M. Grüttner, M. Graeser, and T. M. Buzug |
| in: <em>International Workshop on {Magnetic Particle Imaging} ({IWMPI}), IEEE Xplore Digital Library</em>. (2013). |
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| DOI: 10.1109/IWMPI.2013.6528351 |
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Note: inproceedings
Abstract: For all trajectories, the energies computed in time and frequency domain agree well. The maximum local magnetization change {dM}/dt is largest for the spiral and Lissajous trajectories while it is smallest for the Cartesian trajectory. For the Lissajous and Cartesian trajectories, the total magnetization change appears more homogeneous over the field of view ({FOV}) than for the radial and spiral trajectories, where it is stronger in the center compared to the borders. In general, areas of homogeneous high total magnetization change seem to correspond to areas of high spatial resolution in reconstructed images.
Publications
Journal Publications
Journal Publications
| [76920] |
| Title: Measure of trajectory quality in {Magnetic Particle Imaging}. <em>2013 3rd</em> |
| Written by: H. Wojtczyk, A. Timmermeyer, W. Tenner, T. F. Sattel, G. Bringout, M. Grüttner, M. Graeser, and T. M. Buzug |
| in: <em>International Workshop on {Magnetic Particle Imaging} ({IWMPI}), IEEE Xplore Digital Library</em>. (2013). |
| Volume: Number: |
| on pages: |
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| DOI: 10.1109/IWMPI.2013.6528351 |
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Note: inproceedings
Abstract: For all trajectories, the energies computed in time and frequency domain agree well. The maximum local magnetization change {dM}/dt is largest for the spiral and Lissajous trajectories while it is smallest for the Cartesian trajectory. For the Lissajous and Cartesian trajectories, the total magnetization change appears more homogeneous over the field of view ({FOV}) than for the radial and spiral trajectories, where it is stronger in the center compared to the borders. In general, areas of homogeneous high total magnetization change seem to correspond to areas of high spatial resolution in reconstructed images.
Conference Abstracts and Proceedings
Conference Abstracts and Proceedings
| [76920] |
| Title: Measure of trajectory quality in {Magnetic Particle Imaging}. <em>2013 3rd</em> |
| Written by: H. Wojtczyk, A. Timmermeyer, W. Tenner, T. F. Sattel, G. Bringout, M. Grüttner, M. Graeser, and T. M. Buzug |
| in: <em>International Workshop on {Magnetic Particle Imaging} ({IWMPI}), IEEE Xplore Digital Library</em>. (2013). |
| Volume: Number: |
| on pages: |
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| DOI: 10.1109/IWMPI.2013.6528351 |
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| ARXIVID: |
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Note: inproceedings
Abstract: For all trajectories, the energies computed in time and frequency domain agree well. The maximum local magnetization change {dM}/dt is largest for the spiral and Lissajous trajectories while it is smallest for the Cartesian trajectory. For the Lissajous and Cartesian trajectories, the total magnetization change appears more homogeneous over the field of view ({FOV}) than for the radial and spiral trajectories, where it is stronger in the center compared to the borders. In general, areas of homogeneous high total magnetization change seem to correspond to areas of high spatial resolution in reconstructed images.
Publications Pre-dating the Institute
Publications
Old Publications
| [76920] |
| Title: Measure of trajectory quality in {Magnetic Particle Imaging}. <em>2013 3rd</em> |
| Written by: H. Wojtczyk, A. Timmermeyer, W. Tenner, T. F. Sattel, G. Bringout, M. Grüttner, M. Graeser, and T. M. Buzug |
| in: <em>International Workshop on {Magnetic Particle Imaging} ({IWMPI}), IEEE Xplore Digital Library</em>. (2013). |
| Volume: Number: |
| on pages: |
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| DOI: 10.1109/IWMPI.2013.6528351 |
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Note: inproceedings
Abstract: For all trajectories, the energies computed in time and frequency domain agree well. The maximum local magnetization change {dM}/dt is largest for the spiral and Lissajous trajectories while it is smallest for the Cartesian trajectory. For the Lissajous and Cartesian trajectories, the total magnetization change appears more homogeneous over the field of view ({FOV}) than for the radial and spiral trajectories, where it is stronger in the center compared to the borders. In general, areas of homogeneous high total magnetization change seem to correspond to areas of high spatial resolution in reconstructed images.
Open Access Publications
Journal Publications
Open Access Publications
| [76920] |
| Title: Measure of trajectory quality in {Magnetic Particle Imaging}. <em>2013 3rd</em> |
| Written by: H. Wojtczyk, A. Timmermeyer, W. Tenner, T. F. Sattel, G. Bringout, M. Grüttner, M. Graeser, and T. M. Buzug |
| in: <em>International Workshop on {Magnetic Particle Imaging} ({IWMPI}), IEEE Xplore Digital Library</em>. (2013). |
| Volume: Number: |
| on pages: |
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| how published: |
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| DOI: 10.1109/IWMPI.2013.6528351 |
| URL: |
| ARXIVID: |
| PMID: |
Note: inproceedings
Abstract: For all trajectories, the energies computed in time and frequency domain agree well. The maximum local magnetization change {dM}/dt is largest for the spiral and Lissajous trajectories while it is smallest for the Cartesian trajectory. For the Lissajous and Cartesian trajectories, the total magnetization change appears more homogeneous over the field of view ({FOV}) than for the radial and spiral trajectories, where it is stronger in the center compared to the borders. In general, areas of homogeneous high total magnetization change seem to correspond to areas of high spatial resolution in reconstructed images.
