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Fingerprint Dive into the research topics where Eve Wildman is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

Chemical Compounds

Oxides
Ions
Ionic conductivity
Colossal magnetoresistance
Neutron diffraction
Crystal structure
Electric properties
Magnetoresistance
Ionic conduction
Structural properties
Electronic properties
Derivatives
Neutron powder diffraction
Magnetic properties
Oxygen
Heating
Temperature
Neutrons
Spin glass
Diffraction
Doping (additives)
Atoms
Chemical shift
Vacancies
Synchrotrons
Magnetic susceptibility
Manganese
Glass transition
Solid solutions
Nuclear magnetic resonance
perovskite
Electrons
Cations
Electrolytes
Crystal symmetry
Bond length
Oxygen vacancies
Electron transitions
Molybdenum compounds
Experiments
Cells
Scattering
Magnetic fields
Solid oxide fuel cells (SOFC)
X ray diffraction
X rays
Galvanomagnetic effects
Heating rate

Physics & Astronomy

Physics

neutron diffraction
synchrotrons
ion currents
neutrons
diffraction
temperature
x ray diffraction
nuclear magnetic resonance
cations
oxygen atoms
ions
electrons

General

tetrahedrons
crystal structure
electronics
conduction
solid state
conductivity
expansion
cells
substitutes
degrees of freedom
crystals
line shape
lattice parameters
discontinuity
examination
transition metals

Engineering

magnetic properties
electrical properties
interlayers
moments
electrical resistivity
x rays
heating
high resolution
superconductivity

Chemistry and Materials

chemical equilibrium
oxides
arsenides
Group 5A compounds
solid solutions
molybdenum compounds
spin glass
manganese

Mathematical and Computer Sciences

symmetry

Engineering & Materials Science

Perovskite
Oxides
Ions
Electronic properties
Derivatives
Magnetic properties
Neutron diffraction
Ionic conductivity
Crystal structure
Neutron powder diffraction
Spin glass
Diffraction
Structural properties
Electric properties
Magnetic susceptibility
Temperature
Glass transition
Neutrons
Heating
Ionic conduction
Oxygen
Crystal symmetry
Bond length
Magnetoresistance
Oxygen vacancies
Synchrotrons
Electrolytes
Experiments
Cells
Doping (additives)
Solid oxide fuel cells (SOFC)
X rays