Reprint
Magnetic Resonance Sensors
Edited by
August 2015
222 pages
- ISBN978-3-906980-98-0 (Hardback)
- ISBN978-3-906980-99-7 (PDF)
This is a Reprint of the Special Issue Magnetic Resonance Sensors that was published in
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Format
- Hardback
License and Copyright
© 2015 MDPI; under CC BY-NC-ND license
Keywords
stroke; ischemic penumbra; neurovascular unit; MRI; fetal electrocardiogram gating; magnetic resonance imaging; MRI safety; lanthanide metals; bulk magnetic susceptibility; magnetic resonance spectroscopy; concentration measurements; fiber optic sensors; MR-compatibility; interferometry; fiber Bragg grating; hyperthermia; respiratory monitoring; MR-compatible robotic assistive device; embedded NMR sensor; RF coil; external tuning circuit; T2 relaxation time; cement paste; concrete; compressive strength; pore size distribution; SDR; DDS; NMR; MRI; low-field; compressed sensing; magnetic resonance imaging; optimization; hyperpolarization; NMR; assays; bioprobes; designed probes; endogenous probes; adulteration; olive oil; unilateral NMR Mouse; transverse relaxation; diffusion; Magnetic Resonance Imaging; complex decomposition; statistical signal processing; Cramer–Rao lower bounds; relaxation time estimation; nuclear magnetic resonance; tomato paste; spoilage; single-sided coil; T1 relaxation; saturation recovery; metal container; three-magnet array; unilateral magnetic resonance; turbine oils; power station; aging accessment; T2eff,long; T1,long; rejection standard; fiber interferometers; magnetic resonance imaging; compression; collagen structure; consolidometery; n/a