NIST only participates in the February and August reviews.
This research will focus on developing advanced magnetic This research will focus on developing advanced magnetic
This research will focus on developing advanced magnetic resonance imaging (MRI) that can provide better artefact-free images and more precise quantitative measurements. This research includes developing: new methods for RF and gradient field generation and mapping, improved open-source pulse sequences, improved methods for complex diffusion and spin relaxation measurements, methods to correlate nuclear magnetic resonance (NMR) and MRI data, spin dynamics code to simulate magnetic resonance measurements, field agile NMR and MRI, improved micro-MRI, MRI as a radiation dosimetry tool. This research will involve work on a preclinical metrology MRI, state of the art clinical MRIs, and a variable field NMR/ micro-MRI.
resonance imaging (MRI) that can provide better artefact-free
1. Martin, M.N., et al., RF coil efficacy for efficient spin control in low field magnetic resonance experiments?. Journal of Magnetic Resonance Open, 2023. 16-17: p. 100110.
2. Martin, M.N., et al., Relaxation measurements of an MRI system phantom at low magnetic field strengths. MAGMA, 2023. 36(3): p. 477-485.
3. Russek, S.E., K.F. Stupic, and K.E. Keenan, Traceability and uncertainty in NMR and MRI measurements, in Annual Reports on NMR Spectroscopy. 2024, Academic Press.
images and more precise quantitative measurements. This research
magnetic resonance measurements, field agile NMR and MRI,
research will involve work on a preclinical metrology MRI, statethe art clinical MRIs, and a variable field NMR/ micro-MRI.
Magnetic resonance imaging; MRI; NMR; Nuclear magnetic resonance; microMRI; electromagnetic
measurements; medical imaging; Field mapping