Two-way magnetic resonance tuning and enhanced subtraction imaging for non-invasive and quantitative biological imaging | Nature Nanotechnology
Validation of Quantitative Magnetic Resonance Body Composition Analysis for Infants Using Piglet Model | Pediatric Research
Magnetic resonance multitasking for motion-resolved quantitative cardiovascular imaging | Nature Biomedical Engineering
Two-way magnetic resonance tuning and enhanced subtraction imaging for non-invasive and quantitative biological imaging | Nature Nanotechnology
Magnetic resonance multitasking for motion-resolved quantitative cardiovascular imaging | Nature Biomedical Engineering
Mapping the microscale origins of magnetic resonance image contrast with subcellular diamond magnetometry | Nature Communications
Validation of Quantitative Magnetic Resonance Body Composition Analysis for Infants Using Piglet Model | Pediatric Research
Magnetic resonance imaging techniques for the quantitative analysis of skeletal muscle: State of the art - ScienceDirect
Two-way magnetic resonance tuning and enhanced subtraction imaging for non-invasive and quantitative biological imaging | Nature Nanotechnology
Single-sided magnetic resonance-based sensor for point-of-care evaluation of muscle | Nature Communications
Two-way magnetic resonance tuning and enhanced subtraction imaging for non-invasive and quantitative biological imaging | Nature Nanotechnology
Z02 | Human imaging at meso-scale - SFB1436
Magnetic resonance imaging techniques for the quantitative analysis of skeletal muscle: State of the art - ScienceDirect
Frontiers | Application of 9.4T MRI in Wilson Disease Model TX Mice With Quantitative Susceptibility Mapping to Assess Copper Distribution
Two-way magnetic resonance tuning and enhanced subtraction imaging for non-invasive and quantitative biological imaging | Nature Nanotechnology
Observation of magnetically tunable Feshbach resonances in ultracold 23Na40K + 40K collisions | Science
Two-way magnetic resonance tuning and enhanced subtraction imaging for non-invasive and quantitative biological imaging | Nature Nanotechnology
Magnetic resonance imaging techniques for the quantitative analysis of skeletal muscle: State of the art - ScienceDirect
Single-sided magnetic resonance-based sensor for point-of-care evaluation of muscle | Nature Communications
Single-sided magnetic resonance-based sensor for point-of-care evaluation of muscle | Nature Communications
Magnetic resonance imaging techniques for the quantitative analysis of skeletal muscle: State of the art - ScienceDirect
Magnetic resonance imaging techniques for the quantitative analysis of skeletal muscle: State of the art - ScienceDirect
