Engineering & Materials Science
Galvanomagnetic effects
100%
Amorphous carbon
72%
Gadolinium
67%
Magnetic properties
57%
Doping (additives)
35%
Microstructure
31%
Hydrogen
18%
Carbon
17%
Spin glass
13%
High resolution electron microscopy
13%
Magnetoresistance
12%
Ion beams
11%
Rare earth elements
10%
Raman spectroscopy
10%
Transport properties
9%
Freezing
8%
Atoms
8%
Thin films
7%
Temperature
6%
Chemical analysis
5%
Physics & Astronomy
gadolinium
52%
magnetic properties
33%
carbon
31%
microstructure
27%
rings
10%
hydrogen
9%
spin glass
8%
freezing
7%
electron microscopy
6%
rare earth elements
6%
Raman spectroscopy
6%
transport properties
6%
ion beams
6%
magnetic permeability
5%
high resolution
4%
temperature
4%
thin films
4%
atoms
3%
Chemical Compounds
Magnetic Property
38%
Amorphous Material
32%
Microstructure
31%
Carbon Atom
22%
Negative Magnetoresistance
13%
Ion Beam
8%
Liquid Film
7%
Transport Property
7%
Doping Material
6%
Raman Spectroscopy
5%
Lanthanoid Atom
5%
Hydrogen
3%