@article{Graefe2015,
author = {K. Gräfe, G. Bringout, M. Graeser, T. F. Sattel, and T. M. Buzug},
title = {System matrix recording and phantom measurements with a single-sided {Magnetic Particle Imaging} device.},
journal = {{IEEE} Transactions on Magnetics.},
year = {2015},
volume = {51.},
number = {(2),},
note = {article, Paper ID: 6502303},
doi = {10.1109/TMAG.2014.2330371},
keywords = {1D image, 1-D imaging, biomedical imaging, Coils, Fe2O3, field-free point ({FFP}), Image reconstruction, improved oil-cooled single-sided magnetic particle imaging device, iron compounds, Magnetic Fields, magnetic particle imaging ({MPI}), magnetic particles, Magnetic Resonance Imaging, nanomagnetics, nanoparticles, Particle measurements, particle signal, phantom measurements, phantoms, reconstruction, single-sided {MPI} device, superparamagnetic iron oxide nanoparticles, system matrix recording, tracer material, tube-like design,Graeser},
abstract = {Magnetic particle imaging ({MPI}) is a new imaging method, which uses superparamagnetic iron oxide nanoparticles as tracer material. Due to their tube-like design, most {MPI} devices have limited patient access. In this paper, an improved oil-cooled single-sided {MPI} device is presented that has the advantage that all coils, which are generating the magnetic fields or receiving the particle signal, are coplanar and on one side of the patient only. In consequence, the object, which will be scanned, is not limited in size. In this paper, a first 1-D image recorded with the new device is presented.}
}

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