Keyphrases
NMR Studies
54%
Hydrogen Diffusion
42%
Hydrogen Concentration
39%
Spin-lattice Relaxation
38%
YBa2Cu3O7
38%
Titanium Hydride
37%
Temperature Effect
29%
Nuclear Magnetic Resonance
25%
Proton Spin-lattice Relaxation Time
23%
Temperature Range
23%
Knight Shift
22%
Rutile
22%
Relaxation Rate
19%
Electronic Structure
19%
Conduction Electrons
16%
Activation Energy
16%
Magnetic Ordering
16%
Superconductor
14%
Fluorinated
14%
Room Temperature
14%
Line Shape
14%
Hydrogen Effect
14%
Cu(II)
14%
Diffusion Parameters
12%
Lattice Parameter
12%
Antiferromagnetism
12%
Nuclear Quadrupole Resonance
12%
Resonance Line
11%
Oxygen Deficiency
11%
Concentration Dependence
11%
Relaxation Mechanism
11%
Magnetic Properties
10%
Hydrogen Addition
9%
Zirconium Hydride
9%
Proton Spin
9%
Magnetic Field
9%
Fluorine Doping
9%
Hydrogen System
9%
Magnetic Resonance Techniques
9%
Superconductivity
9%
Hydrogenated
9%
Deuterium
9%
YBaCuO
9%
Tetragonal Phase
9%
Hyperfine Field
9%
NMR Measurements
8%
Proton
8%
Mssbauer
8%
Magnetic Patterns
8%
Diffraction Measurements
8%
Material Science
Nuclear Magnetic Resonance
100%
Titanium
36%
Hydride
30%
Superconducting Material
24%
Activation Energy
22%
Electronic Structure
15%
Lattice Constant
14%
Lineshape
10%
Spin Diffusion
9%
Superconductivity
9%
Linewidth
8%
Powder
7%
Nuclear Quadrupole Resonance Spectroscopy
7%
Ferromagnetism
7%
X-Ray Diffraction
7%
Diffraction Measurement
6%
Magnetic Property
6%
Magnetic Susceptibility
6%
Vortex
6%
Engineering
Lattice Relaxation Time
38%
Activation Energy
34%
Temperature Range
28%
Superconductor
19%
Nuclear Magnetic Resonance
18%
Temperature Dependence
18%
Line Shape
17%
Room Temperature
17%
Relaxation Time
16%
Resonance Frequency
9%
Arrhenius
9%
Ray Diffraction
9%
Low-Temperature
8%
Lattice Parameter
7%
Mols
7%
Band Structure
7%