TY - GEN
T1 - Assessing the limits of MPI tracer performance
AU - Ferguson, R. Matthew
AU - Khandhar, Amit P.
AU - Arami, Hamed
AU - Conolly, Steven M.
AU - Krishnan, Kannan M.
PY - 2013
Y1 - 2013
N2 - Simulations of m′(H) (Fig 1B), which matched MPS (Fig 1C, D) and PSFs (Fig 1A), can be used to predict tracer behavior during imaging. Under applied field conditions commonly used in MPI (25 kHz, 20 mT/μ0), our model predicts that hysteresis will appear in m(H) loops for particles larger than 20 nm diameter, when Keff is 6000 [J m-3], which is the average Keff measured for our MPI tracer. Due to thermal fluctations, the model predicts a maximum coercive field that is less than predicted by the original Stoner-Wohlfarth model, which is given by 2K eff/Ms, where MS, is the saturation magnetization. For a fixed value of Keff, the model predicts that coercive field increases with median particle size, however the FWHM of m′(H) remains relatively unchanged as the loop opens up with increasing particle size. In simulations, the FWHM of m′(H) decreased with K eff. The minimum FWHM predicted by the model when Keff is 6000 was 5 mT; this was consistent with the measured FWHM (5.5 mT) for 25 nm tracers.
AB - Simulations of m′(H) (Fig 1B), which matched MPS (Fig 1C, D) and PSFs (Fig 1A), can be used to predict tracer behavior during imaging. Under applied field conditions commonly used in MPI (25 kHz, 20 mT/μ0), our model predicts that hysteresis will appear in m(H) loops for particles larger than 20 nm diameter, when Keff is 6000 [J m-3], which is the average Keff measured for our MPI tracer. Due to thermal fluctations, the model predicts a maximum coercive field that is less than predicted by the original Stoner-Wohlfarth model, which is given by 2K eff/Ms, where MS, is the saturation magnetization. For a fixed value of Keff, the model predicts that coercive field increases with median particle size, however the FWHM of m′(H) remains relatively unchanged as the loop opens up with increasing particle size. In simulations, the FWHM of m′(H) decreased with K eff. The minimum FWHM predicted by the model when Keff is 6000 was 5 mT; this was consistent with the measured FWHM (5.5 mT) for 25 nm tracers.
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U2 - 10.1109/IWMPI.2013.6528376
DO - 10.1109/IWMPI.2013.6528376
M3 - Conference contribution
AN - SCOPUS:84881002876
SN - 9781467355223
T3 - 2013 International Workshop on Magnetic Particle Imaging, IWMPI 2013
BT - 2013 International Workshop on Magnetic Particle Imaging, IWMPI 2013
T2 - 2013 International Workshop on Magnetic Particle Imaging, IWMPI 2013
Y2 - 23 March 2013 through 24 March 2013
ER -