Engineering & Materials Science
Antiferromagnetism
28%
Charge density waves
6%
Cobalt
9%
Copper oxides
6%
Doping (additives)
12%
Electron correlations
11%
Electrons
9%
Energy gap
7%
Ground state
10%
Heavy fermion superconductors
10%
Hydrostatic pressure
5%
Magnetic fields
13%
Magnetic resonance measurement
8%
Magnetism
10%
Nuclear magnetic resonance
85%
Nuclear quadrupole resonance
48%
Oxide superconductors
13%
Oxygen
5%
Phase diagrams
10%
Phase transitions
5%
Relaxation
5%
Single crystals
10%
Skutterudites
10%
Spin orbit coupling
9%
Spin-lattice relaxation
72%
Superconducting materials
49%
Superconducting transition temperature
8%
Superconductivity
99%
Temperature
20%
Physics & Astronomy
antiferromagnetism
25%
cobalt oxides
8%
copper oxides
9%
critical point
11%
cuprates
22%
domes
6%
electrons
10%
excitation
6%
Fermi liquids
8%
Fermi surfaces
5%
fermions
13%
ground state
8%
Group 5A compounds
11%
heavy fermion superconductors
8%
hole distribution
5%
hydrostatic pressure
5%
impurities
7%
iron
8%
magnetic fields
13%
magnetic permeability
9%
nuclear magnetic resonance
100%
nuclear quadrupole resonance
54%
nuclear spin
30%
orbits
5%
phase diagrams
8%
single crystals
6%
spin dynamics
5%
spin-lattice relaxation
47%
superconductivity
87%
symmetry
8%
temperature
13%
temperature dependence
7%
transition temperature
11%
vortices
5%
Chemical Compounds
17O NMR Spectroscopy
5%
63Cu NMR Spectroscopy
20%
73Ge NMR Spectroscopy
5%
Antiferromagnetic
28%
Antiferromagnetism
21%
Charge Density Wave
5%
Electron Correlation
8%
Electron Spin
17%
Fermi Liquid
8%
Fermion
6%
Ground State
5%
Heavy Fermion System
5%
Knight Shift
45%
Magnetic Excitation
5%
Magnetic Field
16%
Magnetic Resonance
5%
Magnetism
10%
NMR Spectroscopy
11%
Phase Diagrams
8%
Pressure
22%
Quadrupole
18%
Quasiparticle
5%
Resonance
17%
Single Crystalline Solid
7%
Spin Fluctuation
30%
Spin Gap
7%
Spin Susceptibility
12%
Spin-Lattice Relaxation
40%
Spin-Orbit Coupling
6%
Superconducting Gap
22%
Superconductive Transition Temperature
7%
Superconductivity
80%