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Energy absorption
Energy absorption
Pseudobrookite ceramic pigments: Crystal structural, optical and technological properties
Condensed Matter Physics / Inorganic Chemistry / Optical Spectroscopy / Crystal structure / Iron / Energy absorption / Spectrum / Lattice Parameter / Low Temperature / Magnetic Resonance Coupling / Physical Properties / Crystal field / Energy absorption / Spectrum / Lattice Parameter / Low Temperature / Magnetic Resonance Coupling / Physical Properties / Crystal field
A structural and spectroscopic study on para-aminohippuric acid with experimental and theoretical approaches
Analytical Chemistry / Quantum Theory / Quantum Mechanics / Density-functional theory / Oscillations / Electronic properties / Energy absorption / Solvent Effect / Heat Capacity / Time Dependent / Fourier transform infrared spectroscopy / Non Linear Optics / Energy Distribution / Raman Spectra / Absorption Spectra / Thermodynamic Properties / Potential Energy / Electronic properties / Energy absorption / Solvent Effect / Heat Capacity / Time Dependent / Fourier transform infrared spectroscopy / Non Linear Optics / Energy Distribution / Raman Spectra / Absorption Spectra / Thermodynamic Properties / Potential Energy
A structural and spectroscopic study on para-aminohippuric acid with experimental and theoretical approaches
Analytical Chemistry / Quantum Theory / Quantum Mechanics / Density Functional Theory / Oscillations / Electronic properties / Energy absorption / Solvent Effect / Heat Capacity / Time Dependent / Fourier transform infrared spectroscopy / Non Linear Optics / Energy Distribution / Raman Spectra / Absorption Spectra / Thermodynamic Properties / Potential Energy / Electronic properties / Energy absorption / Solvent Effect / Heat Capacity / Time Dependent / Fourier transform infrared spectroscopy / Non Linear Optics / Energy Distribution / Raman Spectra / Absorption Spectra / Thermodynamic Properties / Potential Energy
Pseudobrookite ceramic pigments: Crystal structural, optical and technological properties
Condensed Matter Physics / Inorganic Chemistry / Optical Spectroscopy / Crystal structure / Iron / Energy absorption / Spectrum / Lattice Parameter / Low Temperature / Magnetic Resonance Coupling / Physical Properties / Crystal field / Energy absorption / Spectrum / Lattice Parameter / Low Temperature / Magnetic Resonance Coupling / Physical Properties / Crystal field
Pseudobrookite ceramic pigments: Crystal structural, optical and technological properties
Condensed Matter Physics / Inorganic Chemistry / Optical Spectroscopy / Crystal structure / Iron / Energy absorption / Spectrum / Lattice Parameter / Low Temperature / Magnetic Resonance Coupling / Physical Properties / Crystal field / Energy absorption / Spectrum / Lattice Parameter / Low Temperature / Magnetic Resonance Coupling / Physical Properties / Crystal field
Pseudobrookite ceramic pigments: Crystal structural, optical and technological properties
Condensed Matter Physics / Inorganic Chemistry / Optical Spectroscopy / Crystal structure / Iron / Energy absorption / Spectrum / Lattice Parameter / Low Temperature / Magnetic Resonance Coupling / Physical Properties / Crystal field / Energy absorption / Spectrum / Lattice Parameter / Low Temperature / Magnetic Resonance Coupling / Physical Properties / Crystal field
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