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Craig Polley
Forskare
Teamledare, Forskare
,
MAX IV, Vetenskapsavdelning
Telefon
+46790630670, +46462226517
E-postadress
craig.polley
maxiv.lu
se
Översikt
Fingeravtryck
Nätverk
Forskningsoutput
(44)
Infrastruktur
(1)
Liknande profiler
(8)
Fingeravtryck
Utforska forskningsämnen där Craig Polley är aktiv. Dessa ämnesetiketter kommer från personens arbeten. Tillsammans bildar de ett unikt fingeravtryck.
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Vikt
Alfabetisk ordning
Material Science
Alloying
5%
Angle-Resolved Photoemission Spectroscopy
48%
Anisotropy
5%
Characterization
10%
Crystalline Material
18%
Cuprate
10%
Density
30%
Devices
14%
Doping (Additives)
12%
Electronic Band Structure
9%
Electronic Property
7%
Electronic Structure
70%
Film
28%
Graphene
60%
Heterojunction
13%
Impurity
7%
Indium
7%
Magnetism
7%
Metal
32%
Microscopy
9%
Monolayers
22%
MXene
7%
Nanoparticle
7%
Nickel
5%
Particle
7%
Semiconductor Material
17%
Semimetals
7%
Silicide
7%
Silicon
13%
Silicon Carbide
15%
Solid
10%
Superconducting Material
14%
Superconductivity
32%
Surface
100%
Surface (Surface Science)
7%
Temperature
47%
Theoretical Calculation
5%
Thin Films
12%
Transition Metal
22%
Transition Metal Dichalcogenide
22%
Water
7%
X-Ray Photoelectron Spectroscopy
5%
Physics
Axial Strain
7%
Beryllium
7%
Boundaries
10%
Brillouin Zone
9%
Calculation
13%
Coexistence
7%
Contrast
5%
Correlation
5%
Density Functional Theory
5%
Electron
27%
Electronic Structure
22%
First Principle
6%
Graphene
7%
Gravitational Singularities
7%
Growth
10%
Heusler Compound
7%
Information
7%
Magnet
10%
Magnetism
7%
Phonon
5%
Photoelectric Emission
45%
Photoelectron Spectroscopy
5%
Physics
8%
Plane
7%
Shapes
6%
Silicon
11%
Spin
60%
Spin Valve
7%
Spin-Orbit Coupling
33%
Spintronics
14%
Substrates
21%
Superconductivity
17%
Superconductivity
15%
Surface Layers
9%
Symmetry
11%
Temperature
20%
Topological Insulator
12%
Torus
7%
Transition Element
22%
Transition Metal
22%
Transition Metal Dichalcogenide
20%
Utilization
20%
Chemistry
Adsorption
7%
Brillouin Zone
5%
Doping
10%
Electric Field
8%
Electrical Property
7%
Electron Particle
19%
Electronic State
6%
Energy
10%
Inversion
6%
Magnet
7%
Magnetic Property
5%
Metal
7%
Molecule
5%
Nanoribbon
7%
Nonconductor
10%
Number
13%
Spin Reorientation Transition
7%
Spin-Orbit Coupling
15%
Superconductivity
13%
Superconductor
13%
Symmetry
9%
Transition Element
22%
