Engineering & Materials Science
Nuclear magnetic resonance
100%
Hydrogen
85%
Spin-lattice relaxation
51%
Relaxation time
38%
Hydrides
35%
Temperature
33%
Titanium
32%
Oxygen
26%
Protons
23%
Superconducting materials
19%
Electronic structure
16%
Fluorine
16%
Nuclear quadrupole resonance
15%
Paramagnetic resonance
15%
Activation energy
14%
Relaxation
13%
Atoms
12%
Magnetization
12%
Superconductivity
12%
Antiferromagnetism
11%
Deuterium
11%
Ferromagnetism
10%
Electrons
10%
Magnetic properties
9%
Magnetic relaxation
9%
Electron resonance
8%
Linewidth
7%
Substitution reactions
7%
Zirconium
7%
Lattice constants
7%
Neutron diffraction
7%
Magnetic fields
6%
Magnetic susceptibility
6%
Manganites
6%
Spin glass
6%
Magnetic resonance
6%
Phase diagrams
6%
Diffraction
5%
Transport properties
5%
Magnetism
5%
Copper oxides
5%
Iodine
5%
X rays
5%
Chemical Compounds
Hydrogen
49%
Spin-Lattice Relaxation
23%
Diffusion
22%
Hydride
22%
Resonance
21%
Knight Shift
20%
Magnetic Phenomena
16%
Superconductor
15%
Magnetization
14%
NMR Spectroscopy
14%
Dioxygen
14%
Proton
13%
Time
12%
Antiferromagnetism
11%
Fluorine Atom
10%
Antiferromagnetic
10%
Spin-Lattice Relaxation Time (T1)
10%
Magnetic Field
9%
Reaction Activation Energy
9%
Superconductivity
9%
Tetragonal Space Group
9%
Conduction Electron
8%
Quadrupole
8%
35Cl NMR Spectrum
8%
Neutron Diffraction
8%
Ferromagnetism
7%
Electronic State
6%
Magnetic Ordering
6%
Magnetic Property
6%
Quadrupole Coupling
6%
Deuterium(.)
6%
Magnetic Resonance
6%
Magnetic Relaxation
5%
Ambient Reaction Temperature
5%
Nuclear Spin
5%
Lattice Parameter
5%
Diffusion Activation Energy
5%
Barton Reaction
5%
Physics & Astronomy
nuclear magnetic resonance
66%
hydrogen
53%
hydrides
28%
spin-lattice relaxation
26%
titanium
25%
relaxation time
19%
oxygen
17%
temperature
13%
fluorine
12%
protons
10%
temperature dependence
10%
nuclear quadrupole resonance
10%
conduction electrons
10%
activation energy
9%
zirconium hydrides
9%
halogens
8%
magnetization
8%
resonance lines
8%
electronic structure
6%
superconductivity
6%
antiferromagnetism
6%
magnetic properties
5%
substitutes
5%
neutron diffraction
5%
x ray diffraction
5%
ferromagnetism
5%
atoms
5%
room temperature
5%
nuclei
5%