Current Publications
Journal Publications
Recent Journal Publications
| [180979] |
| Title: Limitations of current MPI models in the context of fluid dynamics. |
| Written by: M. Möddel, A. Schlömerkemper, T. Knopp, and T. Kluth |
| in: <em>International Journal on Magnetic Particle Imaging</em>. (2023). |
| Volume: <strong>9</strong>. Number: (1), |
| on pages: 1-4 |
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| DOI: 10.18416/IJMPI.2023.2303078 |
| URL: https://journal.iwmpi.org/index.php/iwmpi/article/view/581 |
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Note: inproceedings, model-based
Abstract: Micromagnetic fluids are at the core of magnetic particle imaging as underlying tracer materials. They are formed when magnetic nanoparticles are suspended in a fluid such as blood, cytoplasm or water. One of the fundamental assumptions made in current MPI models is that the micromagnetic response of nanoparticles and the dynamics of the fluid transporting them are decoupled. In this contribution, we use a simplified micromagnetic model that takes this interaction into account to investigate scenarios where this assumption breaks down.
Conference Abstracts and Proceedings
Recent Conference Abstracts and Proceedings
| [180979] |
| Title: Limitations of current MPI models in the context of fluid dynamics. |
| Written by: M. Möddel, A. Schlömerkemper, T. Knopp, and T. Kluth |
| in: <em>International Journal on Magnetic Particle Imaging</em>. (2023). |
| Volume: <strong>9</strong>. Number: (1), |
| on pages: 1-4 |
| Chapter: |
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| DOI: 10.18416/IJMPI.2023.2303078 |
| URL: https://journal.iwmpi.org/index.php/iwmpi/article/view/581 |
| ARXIVID: |
| PMID: |
Note: inproceedings, model-based
Abstract: Micromagnetic fluids are at the core of magnetic particle imaging as underlying tracer materials. They are formed when magnetic nanoparticles are suspended in a fluid such as blood, cytoplasm or water. One of the fundamental assumptions made in current MPI models is that the micromagnetic response of nanoparticles and the dynamics of the fluid transporting them are decoupled. In this contribution, we use a simplified micromagnetic model that takes this interaction into account to investigate scenarios where this assumption breaks down.
Publications
Journal Publications
Journal Publications
| [180979] |
| Title: Limitations of current MPI models in the context of fluid dynamics. |
| Written by: M. Möddel, A. Schlömerkemper, T. Knopp, and T. Kluth |
| in: <em>International Journal on Magnetic Particle Imaging</em>. (2023). |
| Volume: <strong>9</strong>. Number: (1), |
| on pages: 1-4 |
| Chapter: |
| Editor: |
| Publisher: |
| Series: |
| Address: |
| Edition: |
| ISBN: |
| how published: |
| Organization: |
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| DOI: 10.18416/IJMPI.2023.2303078 |
| URL: https://journal.iwmpi.org/index.php/iwmpi/article/view/581 |
| ARXIVID: |
| PMID: |
Note: inproceedings, model-based
Abstract: Micromagnetic fluids are at the core of magnetic particle imaging as underlying tracer materials. They are formed when magnetic nanoparticles are suspended in a fluid such as blood, cytoplasm or water. One of the fundamental assumptions made in current MPI models is that the micromagnetic response of nanoparticles and the dynamics of the fluid transporting them are decoupled. In this contribution, we use a simplified micromagnetic model that takes this interaction into account to investigate scenarios where this assumption breaks down.
Conference Abstracts and Proceedings
Conference Abstracts and Proceedings
| [180979] |
| Title: Limitations of current MPI models in the context of fluid dynamics. |
| Written by: M. Möddel, A. Schlömerkemper, T. Knopp, and T. Kluth |
| in: <em>International Journal on Magnetic Particle Imaging</em>. (2023). |
| Volume: <strong>9</strong>. Number: (1), |
| on pages: 1-4 |
| Chapter: |
| Editor: |
| Publisher: |
| Series: |
| Address: |
| Edition: |
| ISBN: |
| how published: |
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| DOI: 10.18416/IJMPI.2023.2303078 |
| URL: https://journal.iwmpi.org/index.php/iwmpi/article/view/581 |
| ARXIVID: |
| PMID: |
Note: inproceedings, model-based
Abstract: Micromagnetic fluids are at the core of magnetic particle imaging as underlying tracer materials. They are formed when magnetic nanoparticles are suspended in a fluid such as blood, cytoplasm or water. One of the fundamental assumptions made in current MPI models is that the micromagnetic response of nanoparticles and the dynamics of the fluid transporting them are decoupled. In this contribution, we use a simplified micromagnetic model that takes this interaction into account to investigate scenarios where this assumption breaks down.
Publications Pre-dating the Institute
Publications
Old Publications
| [180979] |
| Title: Limitations of current MPI models in the context of fluid dynamics. |
| Written by: M. Möddel, A. Schlömerkemper, T. Knopp, and T. Kluth |
| in: <em>International Journal on Magnetic Particle Imaging</em>. (2023). |
| Volume: <strong>9</strong>. Number: (1), |
| on pages: 1-4 |
| Chapter: |
| Editor: |
| Publisher: |
| Series: |
| Address: |
| Edition: |
| ISBN: |
| how published: |
| Organization: |
| School: |
| Institution: |
| Type: |
| DOI: 10.18416/IJMPI.2023.2303078 |
| URL: https://journal.iwmpi.org/index.php/iwmpi/article/view/581 |
| ARXIVID: |
| PMID: |
Note: inproceedings, model-based
Abstract: Micromagnetic fluids are at the core of magnetic particle imaging as underlying tracer materials. They are formed when magnetic nanoparticles are suspended in a fluid such as blood, cytoplasm or water. One of the fundamental assumptions made in current MPI models is that the micromagnetic response of nanoparticles and the dynamics of the fluid transporting them are decoupled. In this contribution, we use a simplified micromagnetic model that takes this interaction into account to investigate scenarios where this assumption breaks down.
Open Access Publications
Journal Publications
Open Access Publications
| [180979] |
| Title: Limitations of current MPI models in the context of fluid dynamics. |
| Written by: M. Möddel, A. Schlömerkemper, T. Knopp, and T. Kluth |
| in: <em>International Journal on Magnetic Particle Imaging</em>. (2023). |
| Volume: <strong>9</strong>. Number: (1), |
| on pages: 1-4 |
| Chapter: |
| Editor: |
| Publisher: |
| Series: |
| Address: |
| Edition: |
| ISBN: |
| how published: |
| Organization: |
| School: |
| Institution: |
| Type: |
| DOI: 10.18416/IJMPI.2023.2303078 |
| URL: https://journal.iwmpi.org/index.php/iwmpi/article/view/581 |
| ARXIVID: |
| PMID: |
Note: inproceedings, model-based
Abstract: Micromagnetic fluids are at the core of magnetic particle imaging as underlying tracer materials. They are formed when magnetic nanoparticles are suspended in a fluid such as blood, cytoplasm or water. One of the fundamental assumptions made in current MPI models is that the micromagnetic response of nanoparticles and the dynamics of the fluid transporting them are decoupled. In this contribution, we use a simplified micromagnetic model that takes this interaction into account to investigate scenarios where this assumption breaks down.
