Engineering & Materials Science
Magnetic anisotropy
100%
Multilayers
73%
Atoms
71%
Thin films
67%
Anisotropy
47%
Substrates
46%
Epitaxial growth
44%
Crystallization
41%
Reflection high energy electron diffraction
40%
Germanium
32%
Metallic superlattices
31%
Temperature
28%
Atomic force microscopy
27%
Optical Kerr effect
25%
Metals
25%
Annealing
24%
Thin film transistors
23%
Electronic structure
22%
Monolayers
22%
Nanodots
22%
Adatoms
21%
Inversion layers
21%
Moisture
21%
Magnetocrystalline anisotropy
20%
Surface active agents
20%
Magnetic properties
19%
Crystalline materials
19%
Infrared absorption
19%
Seed
19%
Dimers
18%
X ray diffraction
18%
Gate dielectrics
17%
Crystal orientation
17%
Platinum
16%
Ion microscopes
16%
Doping (additives)
15%
Ultrahigh vacuum
14%
Fermi level
14%
Lanthanum oxides
14%
Fabrication
13%
Film growth
13%
Gold
13%
Oxygen
13%
Diffraction patterns
13%
Electric properties
13%
Ions
12%
Leakage currents
12%
Iridium
12%
Tin
11%
Agglomeration
11%
Physics & Astronomy
anisotropy
54%
thin films
41%
crystallization
37%
atoms
37%
atomic force microscopy
25%
leakage
24%
seeds
23%
metals
22%
germanium
21%
ultrahigh vacuum
19%
moisture
19%
platinum
18%
electrical properties
18%
adatoms
17%
surfactants
17%
dissociation
17%
permittivity
16%
agglomeration
16%
kinetics
15%
energy
15%
annealing
14%
fabrication
14%
transistors
14%
tin
14%
dimers
14%
ion microscopes
13%
insulators
13%
surface diffusion
13%
orbitals
13%
Kerr effects
13%
dielectric properties
12%
capacitors
12%
temperature
12%
epitaxy
12%
oxygen
12%
superlattices
11%
lanthanum oxides
11%
augmentation
10%
electric potential
10%
oxide films
10%
moisture resistance
10%
acetylsalicylic acid
10%
oscillations
10%
conduction
10%
x rays
10%
inversions
10%
gold
9%
room temperature
9%
nucleation
8%
magnetic properties
8%
Chemical Compounds
Magnetic Anisotropy
75%
Multilayer
62%
Anisotropy
43%
Epitaxial Growth
37%
Liquid Film
25%
Molecular Cluster
18%
Electrooptical Effect
17%
Energy
17%
Diffusion
16%
Adatoms
16%
Linear Muffin-Tin Orbital Method
16%
Self-Diffusion
15%
Metal
15%
Surface
15%
Dissociation
13%
Platinum
12%
Crystal Growth
12%
Monolayer
12%
Superlattice
12%
Magnetic Property
12%
Reflection High Energy Electron Diffraction
11%
Surface Reconstruction
11%
Electronic State
10%
Electrical Property
10%
Displacement
10%
Compound Mobility
9%
Conductive Atomic Force Microscopy
9%
Simulation
9%
Alloy
8%
Surfactant
8%
Magnetization
8%
Strain
8%
Aluminium Atom
8%
Crystal Orientation
7%
Surface Diffusion
7%
Glass Substrate
7%
Atomic Force Microscopy
7%
Grain Boundary
6%
Agglomeration
5%
Energy Barrier
5%
Curie Temperature
5%
Hole Mobility
5%
Embrittlement
5%
Dielectric Material
5%
Annealing
5%
Amorphous Material
5%
Nucleation
5%