Engineering & Materials Science
Nuclear magnetic resonance
100%
Nuclear magnetic resonance spectroscopy
84%
Relaxation
77%
Relaxation time
72%
Data acquisition
70%
Membranes
70%
Spin-lattice relaxation
54%
Polarization
50%
Magnetization
32%
Dissolution
29%
Chemical reactions
27%
Signal to noise ratio
22%
Metals
17%
Physics & Astronomy
data acquisition
80%
nuclear magnetic resonance
66%
augmentation
50%
membranes
45%
acquisition
37%
relaxation time
32%
alignment
32%
polarization
22%
spectroscopy
21%
spin-lattice relaxation
21%
dissolving
19%
chemical reactions
18%
signal to noise ratios
17%
solid state
15%
life (durability)
14%
magnetization
13%
nuclei
13%
causes
12%
sensitivity
12%
metals
10%
Chemical Compounds
NMR Data
83%
Dynamic Nuclear Polarization
59%
Time
29%
Spin-Lattice Relaxation Time (T1)
28%
NMR Spectroscopy
27%
NMR Signal
23%
Solid-State NMR
21%
Magnetization
19%
NMR Spectrum
18%
Dissolution
15%
Metal
9%
Application
6%