Engineering & Materials Science
Nuclear magnetic resonance
100%
Spin-lattice relaxation
87%
Hydrogen
44%
Relaxation time
44%
Superconducting materials
35%
Temperature
30%
Magnetization
30%
Paramagnetic resonance
30%
Fullerenes
27%
Nuclear quadrupole resonance
25%
Magnetic fields
21%
Nanodiamonds
21%
Impurities
20%
Relaxation
19%
Limiters
19%
Oxygen
18%
Protons
16%
Fluorine
16%
Thin films
14%
Superconductivity
13%
Solar cells
13%
Magnetic resonance
12%
Relaxation processes
12%
Hydrides
12%
High temperature superconductors
12%
Atoms
11%
Molecules
10%
Antiferromagnetism
9%
Titanium
9%
Defects
9%
Single crystals
9%
Electrons
9%
Detonation
8%
Thioureas
8%
Magnetic susceptibility
8%
Neutron diffraction
7%
Diffusion barriers
7%
Linewidth
7%
Fault current limiters
7%
Spin dynamics
7%
Photocurrents
7%
Magnetism
7%
Deuterium
7%
Qubits
7%
Crystalline materials
6%
Magic angle spinning
6%
Optical properties
6%
Liquids
6%
Vortex flow
6%
Hot Temperature
5%
Physics & Astronomy
nuclear magnetic resonance
77%
spin-lattice relaxation
60%
nuclear spin
41%
nuclear quadrupole resonance
31%
hydrogen
30%
relaxation time
27%
locking
17%
impurities
17%
magnetic fields
17%
magnetization
16%
dipoles
16%
temperature
15%
pulses
15%
fluorine
14%
nuclei
14%
alternating current
13%
oxygen
13%
magnetic resonance
11%
quadrupoles
11%
fullerenes
10%
thin films
10%
thioureas
10%
hydrides
10%
interactions
9%
time dependence
9%
high temperature superconductors
9%
cavities
9%
magnetic permeability
9%
liquids
8%
defects
8%
protons
8%
halogens
8%
titanium
8%
detonation
7%
resonance lines
7%
molecules
7%
penetration
7%
temperature dependence
6%
superconductivity
6%
graphite
6%
neutron diffraction
6%
photovoltages
6%
inclusions
5%
demagnetization
5%
radio frequencies
5%
vortices
5%
metal spinning
5%
antiferromagnetism
5%
deuterons
5%
atoms
5%
Chemical Compounds
Spin-Lattice Relaxation
68%
Superconductor
35%
Nuclear Spin
33%
Magnetic Field
31%
Magnetization
29%
Resonance
27%
Time
27%
Hydrogen
26%
Electron Spin
25%
Dipole Interaction
17%
Pure Nuclear Quadrupole Resonance
16%
Quadrupole
15%
Nanodiamond
15%
Diffusion
13%
NMR Spectroscopy
12%
Diffusion Barrier
12%
Fluorine Atom
12%
Solar Cell
11%
Fullerene
11%
Liquid
10%
Knight Shift
10%
Dioxygen
10%
Cylinder
10%
Magnetic Phenomena
10%
EPR Spectroscopy
10%
Quadrupole Coupling
10%
Magnetic Resonance
10%
Superconductivity
10%
Paramagnetic Center
9%
Proton
9%
Detonation
9%
Antiferromagnetism
9%
Hydride
8%
Clathrate
8%
Neutron Diffraction
7%
NQR Spectrum
7%
Antiferromagnetic
7%
Single Crystalline Solid
7%
Schottky Barrier
6%
19F NMR Spectroscopy
6%
Energy
6%
Liquid Film
6%
Dynamic Nuclear Magnetic Resonance
6%
Deuteron
6%
Molecule
6%
Ambient Reaction Temperature
6%
Order Parameter
5%
Chlorine-35 Nuclear Quadrupole Resonance Spectroscopy
5%
Photovoltage
5%
Magnetic Ordering
5%